CN114633318A - Separable waste material formula prickly ash wood stick of grinding one's teeth in sleep apparatus for producing - Google Patents

Abstract

The invention relates to a production device, in particular to a production device for a pepper wood molar rod capable of separating waste materials. The problems to be solved are that: the use of the cutter to cut the zanthoxylum bungeanum has certain potential safety hazards, the use of hand-held abrasive paper or the use of a grinding wheel to grind the zanthoxylum bungeanum wastes time and energy, and the grinding is easy to grind and is not regular enough. The technical scheme is as follows: a production device of a separable waste type Chinese prickly ash wood tooth grinding rod comprises a base, a support frame, a first air cylinder, a motor frame, a first motor, a thread cutter, a first guide rail, a second guide rail, a power rod, a feeding mechanism, a limiting mechanism and the like; the support frame is fixedly connected to the base, the first air cylinder is installed on the right side of the base, the motor frame is slidably connected to the right side of the base, the telescopic shaft of the first air cylinder is connected with the motor frame, and the first motor is installed on the motor frame. The device can automatically perform gap feeding on the processed zanthoxylum bungeanum, automatically cut the zanthoxylum bungeanum into the shape of a tooth grinding rod, and then perform automatic blanking; the feeding device is matched with the power rod.

Description

Separable waste material formula prickly ash wood stick of grinding one's teeth in sleep apparatus for producing

Technical Field

The invention relates to a production device, in particular to a production device for a separable waste type zanthoxylum bungeanum tooth grinding rod.

Background

The prickly ash tree is made the stick of grinding one's teeth in sleep, can improve child's chewing ability, can play anti-inflammatory effect, and the stick of grinding one's teeth in sleep of prickly ash tree can prevent that child from breeding the bacterium in the oral cavity simultaneously, perhaps prevents to appear boring one's teeth.

In prior art, when making the stick of grinding one's teeth with prickly ash wood, will remove skin prickly ash wood by the manual work earlier and use the cutter to cut out approximate shape, then polish by the handheld abrasive paper of manual work, perhaps use the electronic wheel of polishing to polish, also need the handheld prickly ash wood of manual work to polish when using the electronic wheel of polishing to polish, until polishing out the shape of the stick of grinding one's teeth.

To among the prior art, it has certain potential safety hazard to use the cutter to cut prickly ash wood, and handheld abrasive paper or use the wheel of polishing to polish to prickly ash wood waste time and energy to easy not regular enough of polishing, consequently invented one kind can automatic feeding, automatic cutting and automatic unloading separable waste material formula prickly ash wood stick of grinding teeth apparatus for producing.

Disclosure of Invention

The invention aims to overcome the defects that the use of a cutter for cutting Chinese prickly ash wood has certain potential safety hazard, the grinding of the Chinese prickly ash wood by hand-held abrasive paper or a grinding wheel is time-consuming and labor-consuming, and the grinding is not regular enough, and the production device can automatically feed, cut and discharge.

The technical scheme is as follows: a production device of a separable waste type Chinese prickly ash wood tooth grinding rod comprises a base, a support frame, a first air cylinder, a motor frame, a first motor, a thread cutter, a first guide rail, a second guide rail, a power rod, a feeding mechanism, a limiting mechanism, a cutting mechanism and a discharging mechanism, wherein the support frame is fixedly connected to the base, the first air cylinder is installed on the right side of the base, the motor frame is connected to the right side of the base in a sliding manner, a telescopic shaft of the first air cylinder is connected with the motor frame, the first motor is installed on the motor frame, the thread cutter is installed on a rotating shaft of the first motor, two first guide rails are symmetrically arranged on the base, two second guide rails are symmetrically arranged on the base, the power rod is connected to the power rod in a sliding manner together on the two first guide rails, the power rod can slide to the second guide rails from the first guide rails, the support frame is connected with the feeding mechanism, and the feeding mechanism is used for intermittently feeding Chinese prickly ash wood under the cooperation of the power rod, be connected with stop gear on the base, stop gear carries on spacingly to the prickly ash wood of intermittent type unloading, is connected with cutting mechanism on the base, and cutting mechanism cuts timber into the shape of stick of grinding one's teeth in sleep, is connected with unloading mechanism on the base, and unloading mechanism carries out automatic unloading to the stick of grinding one's teeth in sleep that the cutting was accomplished.

As the improvement of above-mentioned scheme, feed mechanism is including the set-square, go up the workbin, push away the workbin, material loading pole and first extension spring, and power pole left side rigid coupling has the set-square, and the rigid coupling has the material loading case on the support frame, and upward workbin sliding connection has the material pushing case, pushes away material bottom of the case rigid coupling and has the material loading pole, and material loading pole and set-square cooperation push away the symmetrical two first extension springs that are connected with of workbin bilateral symmetry, and the one end of keeping away from on the first extension spring and pushing away the workbin all is connected on the material loading case.

As the improvement of above-mentioned scheme, stop gear is including first guide arm, limiting plate, first spring, trigger block and the piece that struts, and the sliding connection of symmetry has two first guide arms on the base, and the rigid coupling of symmetry has two limiting plates on two first guide arms, and the cover of symmetry has two first springs on two first guide arms, and the rigid coupling of symmetry has trigger block on two first guide arms, and power rod bilateral symmetry is equipped with two and struts the piece, struts the piece and the trigger block cooperation of homonymy.

As an improvement of the scheme, the cutting mechanism comprises a second cylinder, a pushing frame, a first push rod, a connecting block, an upper protective shell, a second tension spring, a second push rod, a pushing shaft and a cutting knife, the second cylinder is installed on the left side of the base, the pushing frame is installed on a telescopic shaft of the second cylinder, the first push rod is connected onto the pushing frame and is connected with the base in a sliding mode, the connecting block is connected onto the support frame in a sliding mode, the upper protective shell is fixedly connected onto the connecting block, the second tension spring is connected between the connecting block and the support frame, the second push rod is connected onto the connecting block in a sliding mode, the middle of the second push rod is rotatably connected with the support frame, one end, far away from the connecting block, of the second push rod is connected with the pushing shaft in a sliding mode, the pushing shaft is matched with the first push rod, and the cutting knife is installed inside the upper protective shell.

As the improvement of above-mentioned scheme, unloading mechanism is including the sliding block, the third spring, the loading board, the third extension spring, first branch, the separation board, second branch and trigger shaft, it has the sliding block to slide to be connected with behind the pushing frame, be connected with the third spring between sliding block and the pushing frame, sliding connection has the loading board on the base, be connected with the third extension spring between loading board and the base, the rigid coupling has first branch on the loading board, install the separation board on the first branch, one side rigid coupling that keeps away from first branch on the loading board has second branch, second branch upside rotates and is connected with the trigger shaft, trigger shaft and sliding block cooperation.

As an improvement of the scheme, the scrap collecting mechanism comprises a lower protective shell and a scrap collecting box, the first push rod is fixedly connected with the lower protective shell, and the scrap collecting box is installed on the bearing plate.

As the improvement of above-mentioned scheme, still including grinding machanism, grinding machanism is including the frame of polishing, the guide bar, the piece of polishing, the second spring, resistance bar and trapezoidal frame, the rigid coupling has the frame of polishing on the base, the sliding connection of symmetry has two guide bars on the frame of polishing, common rigid coupling has the piece of polishing on two guide bars, it has the second spring all to overlap on two guide bars, the piece left side rigid coupling of polishing has the resistance bar, the rigid coupling has trapezoidal frame on the pushing away frame, trapezoidal frame and resistance bar cooperation.

As an improvement of the scheme, the device also comprises a separation knife, and the separation knife is arranged on the first supporting rod.

As an improvement of the above scheme, the cutting knife and the separating knife are replaceable knives.

As an improvement of the proposal, the shape of the groove on the grinding block is matched with the shape of the tooth grinding rod.

Compared with the prior art, the invention has the following advantages: the device can automatically perform gap feeding on the processed zanthoxylum bungeanum, automatically cut the zanthoxylum bungeanum into the shape of a tooth grinding rod, and then perform automatic blanking; the feeding device is matched with the power rod, so that the treated zanthoxylum bungeanum can be automatically and intermittently fed, and the working efficiency is effectively improved; the Chinese prickly ash can be limited and clamped through the limiting mechanism, enters the Chinese prickly ash from the convenient thread knife, and can be automatically loosened to clamp and limit the Chinese prickly ash under the driving of the power rod; the cutting mechanism can automatically cut and form the formed tooth grinding rod under the driving of the second air cylinder, so that the production efficiency is higher, the potential safety hazard caused by manually cutting the zanthoxylum bungeanum by using a cutter is eliminated, and the shape of the cut tooth grinding rod is more uniform; the blanking mechanism is driven by the second cylinder to automatically blank the formed tooth grinding rod; the dustproof mechanism can prevent wood chips from splashing in the process of cutting the tooth grinding rod under the driving of the second air cylinder, and can collect the generated wood chips, so that the resources can be recycled conveniently; the grinding mechanism can automatically grind the formed tooth grinding rod under the matching of the second cylinder, so that the surface of the tooth grinding rod is smoother; after the grinding rod is polished, the waste at the root of the zanthoxylum bungeanum is automatically cut and separated from the grinding rod.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic position diagram of the limiting mechanism of the present invention.

FIG. 3 is a schematic view of the connection of the pusher boxes of the present invention.

FIG. 4 is a schematic view of the connection relationship of the power rods of the present invention.

FIG. 5 is a schematic view of the connection relationship of the first guide bar according to the present invention.

Fig. 6 is a schematic view of the position of the cutting mechanism of the present invention.

Fig. 7 is a schematic view of the connection relationship of the second push rod of the present invention.

Fig. 8 is a schematic view of the location of the cutting blade of the present invention.

Fig. 9 is a schematic view of the polishing block structure of the present invention.

Figure 10 is a schematic view of the location of the sharpening mechanism of the invention.

FIG. 11 is a schematic view of a carrier plate structure according to the present invention.

Number designation in the figure: 1-a base, 101-a support frame, 2-a first air cylinder, 3-a motor frame, 4-a first motor, 401-a screwer, 402-a first guide rail, 403-a second guide rail, 5-a power rod, 6-a triangle, 7-a feeding box, 8-a pushing box, 801-a feeding rod, 9-a first tension spring, 10-a first guide rod, 11-a limiting plate, 12-a first spring, 13-a trigger block, 1301-a spreading block, 14-a second air cylinder, 15-a pushing frame, 16-a first push rod, 17-a connecting block, 18-an upper protective shell, 19-a second tension spring, 20-a second push rod, 21-a pushing shaft, 22-a cutting knife, 23-a lower protective shell, 24-a scrap collecting box and 25-a polishing frame, 26-guide bar, 27-sanding block, 28-second spring, 29-resistance bar, 30-trapezoidal frame, 31-sliding block, 32-third spring, 33-bearing plate, 34-third tension spring, 35-first support bar, 36-separation plate, 37-second support bar, 38-trigger shaft, 39-separation knife.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is to be understood that the terms "upper", "lower", "left", "right", "front", "back", "inner", "outer", and the like as used herein, whether or not specifically defined herein, are used in a generic and descriptive sense only and not for purposes of limitation.

Example 1

A production device of a separable waste type Chinese prickly ash wood tooth grinding rod comprises a base 1, a support frame 101, a first air cylinder 2, a motor frame 3, a first motor 4, a thread cutter 401, a first guide rail 402, a second guide rail 403, a power rod 5, a feeding mechanism, a limiting mechanism, a cutting mechanism and a discharging mechanism, wherein the support frame 101 is fixedly connected onto the base 1, the first air cylinder 2 is installed on the right side of the base 1, the motor frame 3 is connected onto the right side of the base 1 in a sliding manner, a telescopic shaft of the first air cylinder 2 is connected with the motor frame 3, the motor frame 3 is pushed by the first air cylinder 2 to slide, the first motor 4 is installed on the motor frame 3, the thread cutter 401 is installed on a rotating shaft of the first motor 4, the thread cutter 401 can rotate in a thread manner into a Chinese prickly ash wood, two first guide rails 402 are symmetrically arranged on the base 1, two second guide rails 403 are symmetrically arranged on the base 1, first guide rail 402 and second guide rail 403 are the guide rail of same shape, but length is different, common sliding connection has power rod 5 on two first guide rails 402, power rod 5 can slide to second guide rail 403 on first guide rail 402, be connected with feed mechanism on the support frame 101, feed mechanism carries out intermittent type material loading to prickly ash wood under power rod 5's cooperation, be connected with stop gear on the base 1, stop gear is spacing to the prickly ash wood of intermittent type unloading, be connected with cutting mechanism on the base 1, cutting mechanism cuts timber into the shape of teething stick, be connected with unloading mechanism on the base 1, unloading mechanism carries out automatic unloading to the teething stick of finishing cutting.

Before work, manually placing a plurality of treated zanthoxylum bungeanum in a feeding mechanism, wherein the treated zanthoxylum bungeanum is zanthoxylum bungeanum which is equally segmented and has skin removed, then starting a first motor 4 to drive a screwer 401 to rotate, then controlling a first air cylinder 2 to extend leftwards so as to drive a motor frame 3 to slide leftwards, thereby driving a power rod 5 to slide leftwards on a first guide rail 402, feeding the zanthoxylum bungeanum into a limiting mechanism when the power rod 5 slides leftwards, thereby feeding the zanthoxylum bungeanum into the limiting mechanism, clamping and limiting the zanthoxylum bungeanum by the limiting mechanism when the power rod 5 continuously slides leftwards, rotating the screwer 401 into the zanthoxylum bungeanum during the leftward movement of the first motor 4, closing the first motor 4 when the screwer 401 completely enters the zanthoxylum bungeanum, and then starting to drive the limiting mechanism to loosen the clamping of the zanthoxylum bungeanum by the power rod 5, the zanthoxylum bungeanum is driven to slide leftwards, when the zanthoxylum bungeanum moves to be right below the cutting mechanism, the first air cylinder 2 is stopped to stretch out, then the first motor 4 is started, so that the first motor 4 drives the zanthoxylum bungeanum to rotate through the screwer 401, then the cutting mechanism is controlled to cut the zanthoxylum bungeanum, when the cutting is finished, the cutting mechanism drives the blanking mechanism to limit the zanthoxylum bungeanum to rotate, then the first air cylinder 2 is controlled to shrink, and meanwhile, the first motor 4 is controlled to rotate reversely, so that the screwer 401 is driven to rotate reversely, so that the zanthoxylum bungeanum is limited by the blanking mechanism, so that the zanthoxylum bungeanum is rotated from the screwer 401, and the blanking is finished; when the first cylinder 2 contracts, the power rod 5 can be driven to slide rightwards, when the power rod 5 slides rightwards and is in contact with the feeding mechanism, the power rod 5 can drive the feeding mechanism to feed materials to the inside, and when the power rod 5 slides leftwards again, the feeding mechanism can feed the materials which are fed inside into the clamping mechanism again, so that a working cycle is formed; the device can automatically perform intermittent feeding on the treated zanthoxylum bungeanum, automatically cut the zanthoxylum bungeanum into the shape of a tooth grinding rod, and then perform automatic blanking.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 3, the feeding mechanism comprises a triangular plate 6, a feeding box 7, a pushing box 8, a feeding rod 801 and first tension springs 9, the triangular plate 6 is fixedly connected to the left side of a power rod 5, the triangular plate 6 is fixed to the power rod 5 through an arc-shaped support, the feeding box 7 is fixedly connected to a support frame 101, a funnel-shaped space at the top of the feeding box 7 is used for placing a plurality of zanthoxylum bungeanum, the pushing box 8 is connected to the feeding box 7 in a sliding manner, the pushing box 8 slides in the middle of the feeding box 7, a communicating part between the upper part and the middle part of the feeding box 7 can only pass through one section of zanthoxylum bungeanum at one time, an inclined baffle is arranged on the inner side of the middle part of the feeding box 7, so as to prevent the zanthoxylum bungeanum from directly rolling down from a cavity in the middle part when the zanthoxylum bungeanum falls down from the top, the feeding rod 801 is fixedly connected to the bottom of the pushing box 8, the feeding rod 801 is matched with the triangular plate 6, the two first tension springs 9 are symmetrically connected to two sides of the pushing box 8, first extension spring 9 can provide the power that resets for pushing away workbin 8, and the one end of keeping away from pushing away workbin 8 on first extension spring 9 all is connected on last workbin 7.

When the power rod 5 starts to slide leftwards, the triangular plate 6 is driven to move leftwards, so that the triangular plate 6 does not limit the feeding rod 801 to move backwards any more, at the moment, the two first tension springs 9 are both in a stretching state, so that the first tension springs 9 drive the material pushing box 8 to slide inwards the material pushing box 7, so that the zanthoxylum falling at the middle part of the material pushing box 7 is pushed backwards, and when the feeding rod 801 slides to the rightmost side of the inclined edge of the triangular plate 6, the material feeding box 7 enters the material pushing box 8 to the maximum extent at the moment, so that the zanthoxylum falls downwards onto the limiting mechanism; when the power rod 5 slides rightwards, the triangular plate 6 is driven to move rightwards, when the triangular plate 6 is in contact with the feeding rod 801 and continues to move rightwards, the triangular plate 6 drives the material pushing box 8 to slide forwards from the material feeding box 7 through the feeding rod 801, meanwhile, the first tension spring 9 is stretched, when the power rod 5 slides rightwards to the completion of the contraction of the first air cylinder 2, the power rod 5 is reset, the feeding rod 801 slides to the leftmost side of the upper inclined edge of the triangular plate 6 and keeps a state of being extruded outwards by the triangular plate 6, and at the moment, Chinese prickly ash wood at the top of the material feeding box 7 falls into the material feeding box 7, so that the next feeding is facilitated; the feeding device is matched with the power rod 5, so that intermittent feeding can be automatically performed on the treated zanthoxylum bungeanum, and the working efficiency is effectively improved.

Example 3

On the basis of embodiment 2, as shown in fig. 2 and 5, the limiting mechanism includes a first guide rod 10, a limiting plate 11, a first spring 12, a triggering block 13 and a spreading block 1301, two first guide rods 10 are symmetrically and slidably connected to the base 1, the first guide rod 10 plays a guiding role, two limiting plates 11 are symmetrically and fixedly connected to the two first guide rods 10, the limiting plates 11 are formed by combining an arc-shaped plate and two vertical plates, an anti-slip pad is arranged on the arc-shaped plate, two first springs 12 are symmetrically sleeved on the two first guide rods 10, the first springs 12 are used for providing a restoring force for the limiting plates 11, triggering blocks 13 are symmetrically and fixedly connected to the two first guide rods 10, the triggering blocks 13 are formed by a cube and a rotating cylinder, two spreading blocks 1301 are symmetrically arranged on two sides of the power rod 5, an inclined surface and an arc-shaped protrusion are arranged on the spreading block 1301, the expansion block 1301 is matched with the trigger block 13 on the same side, and the expansion block 1301 is contacted with the cylinder on the trigger block 13 in the moving process.

When the material pushing box 8 pushes the zanthoxylum bungeanum inside the material loading box 7 backwards for blanking, the zanthoxylum bungeanum falls on the two limiting plates 11 at the moment, and the zanthoxylum bungeanum is clamped by the four vertical plates on the limiting plates 11 at the moment, so that the zanthoxylum bungeanum cannot continuously fall downwards; when the power rod 5 starts to slide leftwards, the strutting blocks 1301 on two sides are driven to move leftwards, at the moment, the arc-shaped bulges on the left sides of the two strutting blocks 1301 can be in contact with the triggering blocks 13 on two sides, so that the triggering blocks 13 on two sides are extruded towards the directions away from each other, so that the two limiting plates 11 are driven to move towards the directions away from each other through the two first guide rods 10 and the first springs 12 are compressed, so that the zanthoxylum bungeanum on the two limiting plates 11 drops downwards, then the power rod 5 continues to move leftwards, so that the arc-shaped bulges on the strutting blocks 1301 can start not to extrude the triggering blocks 13 any more, so that the first springs 12 on two sides can push the two limiting plates 11 to move towards the directions close to each other, so that the zanthoxylum bungeanum is clamped, so that the zanthoxylum bungeanum can not rotate, when the triggering blocks 13 start to be in sliding contact with the planes on the strutting blocks 1301, at the moment, the screwdrivers 401 start to thread into the zanthoxylum bungeanum, when the trigger block 13 starts to be in sliding contact with the inclined plane on the spreading block 1301, the spreading blocks 1301 on the two sides extrude the trigger blocks 13 on the two sides in the direction away from each other, so that the two limiting plates 11 are driven by the two first guide rods 10 to move in the direction away from each other, and the first springs 12 are compressed, so that the two limiting plates 11 start to loosen the clamping of the zanthoxylum bungeanum, the power rod 5 continues to slide leftwards, when the trigger block 13 is separated from the spreading block 1301 and starts to be in sliding contact with the power rod 5, the power rod 5 always limits the two trigger blocks 13 to slide and reset in the direction close to each other, so that the two limiting plates 11 are always kept in an opened state, and the distance between the two limiting plates 11 can enable the motor frame 3 to pass through; when the power rod 5 slides rightwards to reset, the spreading blocks 1301 on the two sides are driven to slide leftwards, when the trigger block 13 starts to slide on the inclined plane of the spreading block 1301, the first springs 12 on the two sides can push the two limiting plates 11 to move towards the direction close to each other, at the moment, the feeding mechanism does not finish feeding the Chinese prickly ash wood, when the trigger block 13 slides on the arc-shaped protrusion on the spreading block 1301, the protrusion on the spreading block 1301 can extrude the trigger block 13 outwards for a distance, so that the first springs 12 are compressed, at the moment, the power rod 5 continues to slide rightwards to reset, when the spreading block 1301 moves to the right side of the trigger block 13, the spreading block 1301 does not extrude the trigger block 13 outwards any more, at the moment, the power rod 5 completes resetting, and at the moment, the first air cylinder 2 completes retracting; can carry out spacing clamp to prickly ash wood through stop gear, in making things convenient for thread sword 401 to enter into prickly ash wood to can loosen the clamp of prickly ash wood spacing automatically under the drive of power rod 5.

As shown in fig. 6, 7 and 8, the cutting mechanism includes a second cylinder 14, a pushing frame 15, a first push rod 16, a connecting block 17, an upper protective shell 18, a second tension spring 19, a second push rod 20, a pushing shaft 21 and a cutting knife 22, the second cylinder 14 is installed on the left side of the base 1, the pushing frame 15 is installed on a telescopic shaft of the second cylinder 14, the first push rod 16 is connected to the pushing frame 15, the top end of the first push rod 16 is in an arc groove shape, the first push rod 16 is slidably connected to the base 1, the connecting block 17 is slidably connected to the support frame 101, the connecting block 17 can vertically slide downwards on the support frame 101, the upper protective shell 18 is fixedly connected to the connecting block 17, the second tension spring 19 is connected between the connecting block 17 and the support frame 101, the second tension spring 19 can provide an upward restoring force for the connecting block 17, the second push rod 20 is slidably connected to the connecting block 17, the middle portion of the second push rod 20 is rotatably connected to the support frame 101, one end of the second push rod 20, which is far away from the connecting block 17, is connected with a pushing shaft 21 in a sliding manner, the pushing shaft 21 is matched with the first push rod 16, the pushing shaft 21 can be pushed upwards when the first push rod 16 moves upwards, a cutting knife 22 is installed inside the upper protective shell 18, and the arrangement direction of a cutting edge on the cutting knife 22 is opposite to the forward rotation direction of the first motor 4.

When the zanthoxylum bungeanum on the screw knife 401 moves to the position right below the upper protective shell 18, the first air cylinder 2 stops continuously extending at the moment, the first motor 4 is started at the moment to drive the zanthoxylum bungeanum to rotate, then the second air cylinder 14 is controlled to extend upwards, so that the first push rod 16 is driven to slide upwards through the pushing frame 15, when the first push rod 16 is in contact with the pushing shaft 21 and continuously moves upwards, the first push rod 16 starts to drive the second push rod 20 to rotate anticlockwise through the pushing shaft 21, so that the second push rod 20 drives the connecting block 17 to slide downwards and stretch the second tension spring 19, so that the upper protective shell 18 is driven to move downwards, so that the cutting knife 22 is driven to move downwards, so that the zanthoxylum bungeanum is cut through the cutting knife 22, when the second push rod 20 rotates to be in a horizontal state, the cutting and forming of the zanthoxylum bungeanum is finished at the moment, and the formed zanthoxylum bungeanum are divided into two parts of roots, the cutting and the separation are not completely carried out, so that the polishing of the zanthoxylum bungeanum is facilitated, then the second air cylinder 14 is controlled to contract, so that the first push rod 16 is not pushed upwards by the pushing frame 15, the first push rod 16 starts to slide downwards, the pushing shaft 21 is not pushed upwards by the first push rod 16, at the moment, the second tension spring 19 starts to drive the connecting block 17 to slide upwards for resetting, the upper protective shell 18 and the cutting knife 22 are driven to move upwards for resetting, and the second push rod 20 is driven to rotate clockwise for resetting; when the second cylinder 14 contracts downwards to the initial position, the second cylinder 14 is controlled to contract downwards continuously, the second cylinder 14 contracts downwards continuously to prepare for driving the blanking mechanism to blank the formed zanthoxylum bungeanum, then when the second cylinder 14 is completely contracted, the second cylinder 14 is controlled to extend upwards, when the second cylinder 14 extends upwards, the blanking mechanism is driven to approach towards the zanthoxylum bungeanum, when the blanking mechanism is contacted with the zanthoxylum bungeanum, then the second air cylinder 14 is controlled to stop extending, then the first motor 4 is controlled to rotate reversely, and the first air cylinder 2 is controlled to contract, at this time, the blanking mechanism can limit the zanthoxylum bungeanum to rotate along with the screwer 401, therefore, the zanthoxylum bungeanum is separated from the screwer 401, and when the zanthoxylum bungeanum is separated from the screwer 401, the second air cylinder 14 is controlled to extend upwards for a short distance, so that the second air cylinder 14 returns to the initial position, and the blanking mechanism can automatically reset; cutting mechanism is under the drive of second cylinder 14, can be automatic carry out automatic cutting shaping to fashioned molar stick, and production efficiency is higher to eliminated the artifical potential safety hazard that uses the cutter to cut the zanthoxylum bungeanum existence, the molar stick shape that cuts out is more unified.

As shown in fig. 7 and fig. 11, the blanking mechanism includes a sliding block 31, a third spring 32, a bearing plate 33, a third tension spring 34, a first support rod 35, a separating plate 36, a second support rod 37 and a trigger shaft 38, the sliding block 31 is slidably connected to the rear side of the pushing frame 15, the sliding block 31 is in a triangular shape with rounded corners, the third spring 32 is connected between the sliding block 31 and the pushing frame 15, the third spring 32 is used for providing a restoring force for the sliding block 31, the bearing plate 33 is slidably connected to the base 1, the third tension spring 34 is connected between the bearing plate 33 and the base 1, the third tension spring 34 is used for providing a restoring force for the bearing plate 33, the bearing plate 33 is fixedly connected with the first support rod 35, the separating plate 36 is installed on the first support rod 35, the separating plate 36 is an arc-shaped plate, a tapered protrusion is arranged on the inner side of the separating plate 36, the second support rod 37 is fixedly connected to the side of the bearing plate 33 far from the first support rod 35, the upper side of the second supporting rod 37 is rotatably connected with a trigger shaft 38, and the trigger shaft 38 is matched with the sliding block 31.

When the second cylinder 14 is at the initial position, the sliding block 31 is located on the upper side of the trigger shaft 38, then the second cylinder 14 continues to contract downwards, so as to drive the sliding block 31 to move downwards, the sliding block 31 contacts with the trigger shaft 38 when moving downwards, at this time, the trigger shaft 38 presses the sliding block 31 towards the direction close to the zanthoxylum bungeanum, so that the sliding block 31 slides towards the direction close to the zanthoxylum bungeanum, and the third spring 32 is compressed, when the sliding block 31 moves downwards to be out of contact with the trigger shaft 38, at this time, the contraction of the second cylinder 14 is completed, at this time, the third spring 32 pushes the sliding block 31 to reset, then the second cylinder 14 is controlled to extend, so as to drive the sliding block 31 to move upwards, at this time, the sliding block 31 presses the trigger shaft 38 towards the direction close to the zanthoxylum bungeanum, so as to drive the bearing plate 33 to slide forwards through the second strut 37 and stretch the third tension spring 34, thereby driving the first support rod 35 to move towards the direction close to zanthoxylum bungeanum, thereby driving the separation plate 36 to move towards the direction close to zanthoxylum bungeanum, when the separation plate 36 is contacted with zanthoxylum bungeanum and the bulge above the separation plate 36 is pricked into the waste material at the root of zanthoxylum bungeanum, thereby providing resistance for zanthoxylum bungeanum and limiting the zanthoxylum bungeanum to rotate, at the moment, the sliding block 31 is still in the state of extruding the trigger shaft 38 towards the direction close to zanthoxylum bungeanum, then the first motor 4 is controlled to rotate reversely, and the first cylinder 2 is controlled to shrink, thereby the zanthoxylum bungeanum is separated from the screw knife 401, when the zanthoxylum bungeanum is completely separated from the screw knife 401, the second cylinder 14 is controlled to continue to extend upwards, thereby driving the sliding block 31 to move upwards, when the sliding block 31 is moved above the trigger shaft 38, at the moment, the sliding block 31 stops extending from extruding the trigger shaft 38, at the moment, the third bearing plate 34 drives the tension spring 33 to slide backwards to reset, thereby driving the first support rod 35 and the second support rod 37 to slide and reset, so as to restore to the initial position, and then manually collecting the fallen zanthoxylum bungeanum; the blanking mechanism can automatically blank the formed teeth grinding rod under the driving of the second air cylinder 14.

As shown in fig. 7 and 10, the chip collecting mechanism further includes a lower protective shell 23 and a chip collecting box 24, the lower protective shell 23 is fixedly connected to the first push rod 16, the opening area of the lower protective shell 23 is larger than that of the upper protective shell 18, the lower protective shell 23 is a shell with the top and the bottom communicated, and the chip collecting box 24 is installed on the bearing plate 33.

When the pushing frame 15 moves upwards, the first push rod 16 is driven to move upwards, the lower protective shell 23 is driven to move upwards, the upper protective shell 18 moves downwards, when the cutting blade 22 starts to contact with the zanthoxylum bungeanum, the lower protective shell 23 starts to cover the upper protective shell 18, sawdust generated during cutting falls into the lower protective shell 23, and falls into the sawdust collecting box 24 through the lower protective shell 23, so that the sawdust in the cutting process can be prevented from splashing, the scraps generated during cutting can be collected, when the pushing frame 15 moves downwards, the first push rod 16 starts to slide downwards, the lower protective shell 23 starts to move downwards, when the second air cylinder 14 retracts to the initial position, the first push rod 16 does not move downwards, and the lower protective shell 23 does not move downwards at this time, so that resetting is completed; dustproof mechanism can prevent that the saw-dust from splashing at the in-process of cutting the stick of grinding one's teeth in the drive of second cylinder 14 to can collect the saw-dust of production, the recycle of the resource of being convenient for.

As shown in fig. 6 and 9, the polishing device further comprises a polishing mechanism, the polishing mechanism comprises a polishing frame 25, guide rods 26, polishing blocks 27, a second spring 28, a resistance rod 29 and a trapezoid frame 30, the polishing frame 25 is fixedly connected to the base 1, the two guide rods 26 are symmetrically and slidably connected to the polishing frame 25, the guide rods 26 provide a guiding function, the polishing blocks 27 are fixedly connected to the two guide rods 26 jointly, the second spring 28 is sleeved on the two guide rods 26, the second spring 28 is used for providing backward moving force for the polishing blocks 27, the resistance rod 29 is fixedly connected to the left side of the polishing blocks 27, the trapezoid frame 30 is fixedly connected to the pushing frame 15, and the trapezoid frame 30 is matched with the resistance rod 29.

When the second cylinder 14 extends upwards from the initial position, cutting is started to be performed on the zanthoxylum bungeanum maxim, so that the ladder-shaped frame 30 is driven to move upwards, the ladder-shaped frame 30 can extrude the resistance rod 29 forwards, and the grinding block 27 is far away from the zanthoxylum bungeanum maxim; when the second cylinder 14 is at the initial position and continues to move downwards, the pushing frame 15 drives the trapezoidal frame 30 to move downwards, so that the trapezoidal frame 30 does not extrude the resistance bar 29 forwards any more, at the moment, the second spring 28 is in a compressed state, so that the second spring 28 pushes the polishing block 27 to move towards the direction close to the zanthoxylum bungeanum, then the first motor 4 is started, and when the second cylinder 14 finishes shrinking, the groove on the polishing block 27 is in contact with the zanthoxylum bungeanum in a fit manner, so that the surface of the zanthoxylum bungeanum is polished; when the second cylinder 14 starts to extend upwards, the second cylinder 14 drives the ladder-shaped frame 30 to move upwards, so that the resistance rod 29 is extruded forwards, the polishing block 27 is driven to move away from the zanthoxylum bungeanum, and the second spring 28 is compressed, so that the resetting is completed; grinding machanism can be automatic polish to fashioned stick of grinding one's teeth in the hands under the cooperation of second cylinder 14 to make the surface of stick of grinding one's teeth in the hands more smooth.

As shown in fig. 11, the cutting tool further includes a separating knife 39, the separating knife 39 is mounted on the first support rod 35, and the separating knife 39 is a cutting tool.

When the first supporting rod 35 moves towards the direction close to the zanthoxylum bungeanum, the separating knife 39 is driven to move towards the direction close to the zanthoxylum bungeanum, the formed tooth grinding rod and the waste at the root are cut and separated through the separating knife 39, the tooth grinding rod can fall into the chip collecting box 24 through the lower protective shell 23 when the tooth grinding rod and the root are cut and separated, the separating plate 36 is in contact with the waste on the thread knife 401 at the moment, the first motor 4 is turned off at the moment, the first supporting rod 35 can continuously move towards the direction close to the zanthoxylum bungeanum, the separating plate 36 is in contact with the waste at the root of the zanthoxylum bungeanum and limits the rotation of the zanthoxylum bungeanum, then the waste at the root of the zanthoxylum bungeanum is separated from the thread knife 401, and the root of the separated zanthoxylum bungeanum also can fall into the chip collecting box 24 downwards; when the first support rod 35 moves away from the zanthoxylum bungeanum, the separation knife 39 is driven to move away from the zanthoxylum bungeanum; after the grinding rod is ground, the waste at the root of the zanthoxylum bungeanum is automatically cut and separated from the grinding rod by the separating knife 39.

As shown in fig. 8 and 11, the cutting blade 22 and the separating blade 39 are replaceable blades.

The cutting blade 22 and the separating blade 39 are replaceable blades, and when the cutting blade 22 and the separating blade 39 are used for a long time, the use effect is reduced, and the cutting blade 22 and the separating blade 39 can be replaced manually.

As shown in FIG. 9, the shape of the grooves on the sanding block 27 match the shape of the dental burr.

The shape of the groove on the grinding block 27 is matched with the shape of the tooth grinding rod, and the groove on the grinding block 27 is matched with the shape of the tooth grinding rod to more comprehensively grind the tooth grinding rod, so that the tooth grinding rod is smoother.

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

Claims (10)

1. A production device of a separable waste type Chinese prickly ash wood molar bar is characterized by comprising a base (1), a support frame (101), a first cylinder (2), a motor frame (3), a first motor (4), a thread cutter (401), a first guide rail (402), a second guide rail (403), a power rod (5), a feeding mechanism, a limiting mechanism, a cutting mechanism and a discharging mechanism, wherein the support frame (101) is fixedly connected onto the base (1), the first cylinder (2) is installed on the right side of the base (1), the motor frame (3) is connected onto the right side of the base (1) in a sliding manner, a telescopic shaft of the first cylinder (2) is connected with the motor frame (3), the first motor (4) is installed on the motor frame (3), the thread cutter (401) is installed on a rotating shaft of the first motor (4), the two first guide rails (402) are symmetrically arranged on the base (1), the two second guide rails (403) are symmetrically arranged on the base (1), common sliding connection has power pole (5) on two first guide rails (402), power pole (5) can be followed first guide rail (402) and gone up to second guide rail (403), be connected with feed mechanism on support frame (101), feed mechanism carries out intermittent type material loading to prickly ash wood under the cooperation of power pole (5), be connected with stop gear on base (1), stop gear carries on spacingly to the prickly ash wood of intermittent type unloading, be connected with cutting mechanism on base (1), cutting mechanism cuts timber into the shape of grinding teeth stick, be connected with unloading mechanism on base (1), unloading mechanism carries out automatic unloading to the grinding teeth stick of cutting completion.

2. The production device of the pricklyash peel-wood molar stick capable of separating waste materials according to claim 1, characterized in that the feeding mechanism comprises a triangular plate (6), a feeding box (7), a pushing box (8), a feeding rod (801) and first tension springs (9), the triangular plate (6) is fixedly connected to the left side of the power rod (5), the feeding box (7) is fixedly connected to the support frame (101), the pushing box (8) is slidably connected to the feeding box (7), the feeding rod (801) is fixedly connected to the bottom of the pushing box (8), the feeding rod (801) is matched with the triangular plate (6), the two first tension springs (9) are symmetrically connected to two sides of the pushing box (8), and one ends of the first tension springs (9) far away from the pushing box (8) are connected to the feeding box (7).

3. The production device of the separable waste type zanthoxylum molmol stick as claimed in claim 2, wherein the limiting mechanism comprises a first guide rod (10), a limiting plate (11), a first spring (12), a trigger block (13) and a spreading block (1301), the two first guide rods (10) are symmetrically and slidably connected to the base (1), the two limiting plates (11) are symmetrically and fixedly connected to the two first guide rods (10), the two first springs (12) are symmetrically sleeved on the two first guide rods (10), the trigger block (13) is symmetrically and fixedly connected to the two first guide rods (10), the two spreading blocks (1301) are symmetrically arranged on two sides of the power rod (5), and the spreading block (1301) is matched with the trigger block (13) on the same side.

4. The production device of the separable waste type zanthoxylum bungeanum molar bar according to claim 3, characterized in that the cutting mechanism comprises a second cylinder (14), a pushing frame (15), a first push rod (16), a linking block (17), an upper protective shell (18), a second tension spring (19), a second push rod (20), a pushing shaft (21) and a cutting knife (22), the second cylinder (14) is installed on the left side of the base (1), the pushing frame (15) is installed on a telescopic shaft of the second cylinder (14), the first push rod (16) is connected on the pushing frame (15), the first push rod (16) is connected with the base (1) in a sliding way, the linking block (17) is connected on the supporting frame (101) in a sliding way, the upper protective shell (18) is fixedly connected on the linking block (17), the second tension spring (19) is connected between the linking block (17) and the supporting frame (101), the second push rod (20) is connected on the linking block (17) in a sliding way, the middle part of the second push rod (20) is rotatably connected with the support frame (101), one end, far away from the connecting block (17), of the second push rod (20) is connected with a pushing shaft (21) in a sliding mode, the pushing shaft (21) is matched with the first push rod (16), and a cutting knife (22) is installed inside the upper protective shell (18).

5. The production device of the Zanthoxylum bungeanum molar bar as claimed in claim 4, wherein the blanking mechanism comprises a sliding block (31), a third spring (32), a bearing plate (33), a third tension spring (34), a first support rod (35), a separating plate (36), a second support rod (37) and a trigger shaft (38), the sliding block (31) is connected to the rear side of the pushing frame (15) in a sliding manner, the third spring (32) is connected between the sliding block (31) and the pushing frame (15), the bearing plate (33) is connected to the base (1) in a sliding manner, the third tension spring (34) is connected between the bearing plate (33) and the base (1), the first support rod (35) is fixedly connected to the bearing plate (33), the separating plate (36) is installed on the first support rod (35), the second support rod (37) is fixedly connected to one side of the bearing plate (33) far away from the first support rod (35), the upper side of the second support rod (37) is rotatably connected with a trigger shaft (38), and the trigger shaft (38) is matched with the sliding block (31).

6. The production device of the pricklyash peel wood molar stick capable of separating waste materials according to claim 5, characterized by further comprising a scrap collecting mechanism, wherein the scrap collecting mechanism comprises a lower protective shell (23) and a scrap collecting box (24), the lower protective shell (23) is fixedly connected to the first push rod (16), and the scrap collecting box (24) is mounted on the bearing plate (33).

7. The production device of the separable waste type zanthoxylum bungeanum molar stick according to claim 6, characterized by further comprising a grinding mechanism, wherein the grinding mechanism comprises a grinding frame (25), guide rods (26), grinding blocks (27), second springs (28), resistance rods (29) and a trapezoidal frame (30), the grinding frame (25) is fixedly connected to the base (1), the two guide rods (26) are symmetrically and slidably connected to the grinding frame (25), the grinding blocks (27) are fixedly connected to the two guide rods (26) together, the second springs (28) are sleeved on the two guide rods (26), the resistance rods (29) are fixedly connected to the left side of the grinding blocks (27), the trapezoidal frame (30) is fixedly connected to the pushing frame (15), and the trapezoidal frame (30) is matched with the resistance rods (29).

8. The device for producing the zanthoxylum bungeanum molar bar according to claim 7, characterized in that it further comprises a separating knife (39), and the separating knife (39) is mounted on the first supporting rod (35).

9. The apparatus for producing Zanthoxylum bungeanum molar bars according to claim 8, characterized in that the cutting knife (22) and the separating knife (39) are replaceable knives.

10. The production device of the zanthoxylum bungeanum molar bar capable of separating waste materials according to claim 9, characterized in that the shape of the groove on the grinding block (27) is matched with the shape of the molar bar.

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