CN209950220U - Mosquito-repellent incense blank forming device - Google Patents

Mosquito-repellent incense blank forming device Download PDF

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Publication number
CN209950220U
CN209950220U CN201920041854.2U CN201920041854U CN209950220U CN 209950220 U CN209950220 U CN 209950220U CN 201920041854 U CN201920041854 U CN 201920041854U CN 209950220 U CN209950220 U CN 209950220U
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sieve
conveying
plate
clamping
sieve plate
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CN201920041854.2U
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Inventor
刘阿小
刘阿大
傅德丙
吴联平
戴海珊
张公敏
戴琪琳
邓卫兵
蒋金凤
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FUJIAN MINAN MACHINERY MANUFACTURING Co Ltd
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FUJIAN MINAN MACHINERY MANUFACTURING Co Ltd
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Abstract

The utility model relates to a mosquito-repellent incense preparation equipment field especially relates to a mosquito-repellent incense material blank forming device, include the frame and locate unloading mechanism, extrusion output mechanism, material blank conveying mechanism, forming mechanism, sieve conveying mechanism in the frame according to the assembly line, sieve conveying mechanism includes the conveyer belt, locate the frame lie in the conveyer belt top the buffer memory station, locate the pile up neatly station in the frame, locate the frame and be used for shifting the sieve on the pile up neatly station and release to the device that moves of buffer memory station, the buffer memory station includes rotationally locate two live-rollers in the frame, locate and be used for blocking more than two ratchet, the drive live-roller pivoted sieve servo motor that put the bearing sieve on each live-roller, and when a tooth position of ratchet rotation, the sieve is transferred and is sent into conveyer belt and next sieve of ratchet bearing, and it has solved current sieve input efficiency low, The labor cost is large.

Description

Mosquito-repellent incense blank forming device
Technical Field
The invention relates to the field of mosquito-repellent incense manufacturing equipment, in particular to a mosquito-repellent incense blank forming device.
Background
At present, mechanical equipment is usually adopted in the shaping of mosquito-repellent incense and is produced, and it can both realize semi-automatization usually, like chinese patent no: CN98113072.0 discloses a full-automatic mosquito incense forming device, which mainly comprises a mosquito incense mixer, a rolling press and a multi-mold forming mechanism, wherein a rotary mosquito incense conveying belt driven by an intermittent transmission mechanism is arranged on a workbench of the multi-mold forming machine, as disclosed in chinese patent No.: CN201710764719.6 discloses a mosquito incense forming press, which comprises a processing table, a cylinder, a lever and a vertical rack, wherein the cylinder is connected with a press head, the processing table is connected with a forming module in a sliding way, the forming module is connected with a threaded rod, two ends of the lever are respectively hinged on the threaded rod and the vertical rack, and a fulcrum of the lever is close to the threaded rod; processing platform lateral part has second slide rail and sliding connection's first slide rail, processing bench has the shutter including several flabellums, every adjacent two flabellums are together articulated, and articulated position sliding connection is in first slide rail, the other end difference sliding connection of two flabellums is in the second slide rail, the last rotation of processing bench is connected with the deformation gear who is equipped with first tooth and second tooth, first tooth and perpendicular rack meshing, the second tooth is including extending to the long tooth between two flabellums, the processing bench is equipped with cuts the net, it has the perforation and rotates to be connected with the cutter to cut to net. But it can realize the automation also only be the shaping stage, need place the sieve on the conveyer belt one by one in the earlier stage, and the mosquito-repellent incense blank after the shaping is exported to the sieve on, then sieve output, pile up neatly, then dry or dry in the air, need a large amount of manual operation at this process of sieve input, not only the cost is higher, and work efficiency is also very low.
Disclosure of Invention
Therefore, aiming at the problems, the invention provides a mosquito-repellent incense blank forming device which solves the technical problems of low input efficiency and high labor consumption of the existing sieve plate.
In order to achieve the purpose, the invention adopts the following technical scheme: a mosquito-repellent incense blank forming device comprises a frame, a blanking mechanism, an extrusion output mechanism, a blank conveying mechanism, a forming mechanism and a sieve plate conveying mechanism, wherein the blanking mechanism, the extrusion output mechanism, the blank conveying mechanism, the forming mechanism and the sieve plate conveying mechanism are arranged on the frame according to an assembly line, the conveying direction of the blank conveying mechanism and the conveying direction of the sieve plate conveying mechanism are arranged in a crossed manner, the sieve plate conveying mechanism comprises a conveying belt, a buffer station, a stacking station and a transfer device, the conveying belt is arranged on the frame and is used for conveying sieve plates, the buffer station is arranged on the frame and is used for transferring and releasing the sieve plates on the stacking station to the buffer station, the buffer station comprises two rotating rollers which are rotatably arranged on the frame, more than two ratchet wheels which are used for clamping and bearing the sieve plates and a sieve plate servo motor for driving the rotating rollers to rotate, when one tooth, move and carry the device including locating the support frame in the frame, along the running gear of support frame walking, can follow the grip slipper of running gear oscilaltion, the lift drive of drive grip slipper oscilaltion, locate the grip slipper around both sides slide along the grip slipper in order to realize the grip block, locate the gliding centre gripping cylinder of drive grip block on the grip slipper, the lower extreme of grip block is equipped with the hook plate that is used for the card to put the sieve.
Furthermore, a lifting cylinder is arranged on the outer side of each clamping plate, a lifting seat is arranged on a piston rod of each lifting cylinder, second clamping cylinders are respectively arranged on the left side and the right side of each lifting seat, and a clamping auxiliary plate is arranged on each second clamping cylinder.
Furthermore, the clamping auxiliary plate is L-shaped, and when the second clamping cylinder retracts, the inner side face of the clamping auxiliary plate is close to the sieve plate.
Furthermore, each edge of the clamping auxiliary plate bends outwards to form an arc-touching-proof edge.
Furthermore, a sieve plate stacking mechanism is arranged on one side, opposite to the sieve plate conveying mechanism, of the forming mechanism on the rack, and the structure of the sieve plate stacking mechanism is the same as that of the sieve plate conveying mechanism.
Further, extrusion output mechanism includes the support, locate output tube on the support, locate the bolt transport axle in the output tube, locate drive spiral delivery axle on the support spiral servo motor, locate the feeder hopper on the support, be equipped with feed inlet and discharge gate on the output tube, the lower extreme intercommunication feed inlet of feeder hopper.
Furthermore, the through-hole has been seted up on the lateral wall of feeder hopper, the articulated apron that is equipped with on the inside wall of feeder hopper, the apron lower extreme is equipped with the support apron and does not have intersected spring in order to realize through-hole projection and apron in the transverse direction, and when the apron pressurized, the through-hole projection is located the apron in the transverse direction, the feeder hopper is equipped with the inductor that is used for responding to whether the material is overflowed in the feeder hopper outward, the inductor sees through in the directional feeder hopper of through-hole.
A mosquito-repellent incense blank forming process based on the same invention concept comprises the following steps:
the method comprises the following steps that firstly, materials are loaded into a blanking mechanism, the blanking mechanism releases the materials to enter an extrusion output mechanism, the extrusion output mechanism comprises a feed hopper, a sensor for sensing whether the materials overflow or not is arranged on the feed hopper, and when the materials enter the sensor, the blanking mechanism stops blanking;
secondly, after being extruded by the extrusion output mechanism, the extruded material is conveyed into a forming mechanism through a material blank conveying mechanism, and the forming mechanism forms a mosquito-repellent incense material blank;
thirdly, the sieve plate conveying mechanism comprises a conveying belt which is arranged on the rack and is positioned below the forming mechanism and used for conveying sieve plates, a caching station which is arranged on the rack and is positioned above the conveying belt, a stacking station which is arranged on the rack and is used for transferring and releasing the sieve plates on the stacking station to the caching station, the sieve plate conveying mechanism clamps the sieve plate stack of the stacking station and transfers the sieve plate stack to the caching station, the caching station comprises two rotating rollers which are rotatably arranged on the rack, more than two ratchet wheels which are arranged on each rotating roller and are used for clamping and bearing the sieve plates, and a sieve plate servo motor which drives the rotating rollers to rotate, the sieve plates are supported through more than four ratchet wheels, then the rotating rollers rotate to release the sieve plates one by one, and the sieve plates are conveyed to the lower part of the forming;
fourthly, the forming mechanism outputs the mosquito-repellent incense blanks on the sieve plate;
fifthly, stacking the sieve plates filled with the mosquito-repellent incense blanks by using a sieve plate stacking mechanism.
And in the third step, a first sensor is arranged at the sieve plate conveying mechanism to sense the stock of the sieve plates at the cache station, a plurality of sieve plate stack storage positions are arranged at the stacking station, a second sensor is arranged at each sieve plate stack storage position to sense the stock of the sieve plates, and when the first sensor sends a signal, the transfer device is transferred to the sieve plate stack storage position with the stock closest to the cache station to transfer the sieve plates.
Further, the transfer device comprises a support frame arranged on the frame, a traveling mechanism traveling along the support frame, a clamping seat capable of ascending and descending along the traveling mechanism, a lifting driving device driving the clamping seat to ascend and descend, clamping plates arranged on the front side and the rear side of the clamping seat and sliding along the clamping seat to realize clamping, and clamping cylinders arranged on the clamping seat and driving the clamping plates to slide, wherein the lower end of the clamping plate is provided with a hook plate for clamping the sieve plate, the outer side of each clamping plate is provided with a lifting cylinder, a piston rod of the lifting cylinder is provided with a lifting seat, the left side and the right side of the lifting seat are respectively provided with a second clamping cylinder, a clamping auxiliary plate is arranged on the second clamping cylinder, the clamping auxiliary plate is L-shaped, when the second clamping cylinder retracts, the inner side surface of the clamping auxiliary plate is close to the sieve plate, each edge of the clamping auxiliary plate bends outwards to form an arc-touching-proof edge, when the transfer device, the lifting cylinder starts to push the lower lifting seat to drive the clamping auxiliary plate to move downwards so as to cover the sieve plate connected with the lower end of the transfer device and the sieve plate on the caching station, and the second clamping cylinder starts to release the sieve plate.
By adopting the technical scheme, the invention has the beneficial effects that: this mosquito-repellent incense blank forming device passes through unloading mechanism, extrusion output mechanism, blank conveying mechanism, forming mechanism, sieve conveying mechanism's setting, sieve pile up neatly mechanism can also be added to the opposite side at forming mechanism, can also set up the feed back conveyer belt between forming mechanism and extrusion output mechanism, sieve input device can also be added in sieve conveying mechanism one side and be used for the sieve to pile up neatly station transport sieve, sieve pile up neatly mechanism structure can be the same with sieve conveying mechanism, thereby an assembly line that can realize automatic operation has been formed, realize the reduction of cost of labor. The sieve plate conveying mechanism comprises a conveying belt, a buffer station, a stacking station and a transfer device, so that the transfer device can be used for transferring the sieve plate stack from stacking to the buffer station, and the buffer station is provided with a rotating roller, a ratchet wheel and a sieve plate servo motor, so that the sieve plates can be released one by one; furthermore, a lifting cylinder is arranged on the outer side of each clamping plate, a lifting seat is arranged on a piston rod of each lifting cylinder, second clamping cylinders are respectively arranged on the left side and the right side of each lifting seat, and a clamping auxiliary plate is arranged on each second clamping cylinder. The clamping auxiliary plate is L-shaped, and when the second clamping cylinder retracts, the inner side surface of the clamping auxiliary plate is close to the sieve plate. And each edge of the clamping auxiliary plate bends outwards to form an arc-touching-proof edge. The arrangement can prevent the dislocation or toppling of the sieve plate when the sieve plate is released to the buffer station by the transfer device due to the dislocation caused by reasons such as improper stroke, error caused by shaking, deflection of the sieve plate stack and the like; further, the through-hole has been seted up on the lateral wall of feeder hopper, the articulated apron that is equipped with on the inside wall of feeder hopper, the apron lower extreme is equipped with the support apron and does not have intersected spring in order to realize through-hole projection and apron in horizontal direction, and when the apron pressurized, the through-hole projection is located the apron in horizontal direction, the feeder hopper is equipped with the inductor that is used for responding to whether the material is excessive in the feeding hopper outward, the inductor sees through in the directional feeder hopper of through-hole, sets up like this and can realize the accurate control to the material, prevents excessive unloading.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural diagram of the cooperation of the sieve plate conveying mechanism, the forming mechanism and the sieve plate stacking mechanism;
FIG. 3 is a schematic view showing the arrangement of the blanking mechanism, the extrusion output mechanism, and the preform feeding mechanism;
FIG. 4 is a schematic structural view of a transfer device;
FIG. 5 is a side view of the clamping plate;
FIG. 6 is a schematic sectional view of the holding auxiliary plate;
FIG. 7 is a schematic diagram of a cache station;
FIG. 8 is a schematic view of the ratchet structure;
fig. 9 is a schematic view of the feed hopper.
Detailed Description
The invention will now be further described with reference to the accompanying drawings and detailed description.
Referring to fig. 1 to 9, the embodiment provides a mosquito incense blank forming device, which includes a frame, and a blanking mechanism 1, an extrusion output mechanism 2, a blank conveying mechanism 3, a forming mechanism 4, a sieve plate conveying mechanism 5 for conveying sieve plates 9, and a sieve plate stacking mechanism 6 for stacking sieve plates 9, which are disposed on the frame according to a flow line, wherein the blank conveying mechanism 3 and the sieve plate conveying mechanism 5 are disposed in a crossed manner in a conveying direction, the sieve plate conveying mechanism 5 includes a conveyor belt 51 for conveying sieve plates, which is disposed on the frame and below the forming mechanism 4, a buffer station 52, which is disposed on the frame and above the conveyor belt 51, a stacking station 53 disposed on the frame, and a transfer device 54, which is disposed on the frame and is used for transferring and releasing sieve plates on the buffer station 53 to the buffer station 52, the buffer station 52 includes two rotating rollers 521, which, Two ratchet wheels 522 arranged on each rotating roller 521 for clamping and holding the sieve plate, a sieve plate servo motor (not shown in the figure) for driving the rotating rollers 521 to rotate, wherein each ratchet wheel 522 comprises a wheel body 5221 clamped on the rotating rollers 521 and tooth bodies 5222 uniformly distributed on the wheel body 5221, when the ratchet wheel rotates for one tooth position, the sieve plate is put down and conveyed into a conveying belt, and the ratchet wheel holds the next sieve plate, the transferring device 54 comprises a support frame 541 arranged on the frame, a traveling mechanism 542 traveling along the support frame 541, a clamping seat 543 capable of ascending and descending along the traveling mechanism 542, a lifting driving device (not shown in the figure) for driving the clamping seat 543 to ascend and descend, a clamping plate 544 arranged on the front side and the rear side of the clamping seat 543 and sliding along the clamping seat 543 to realize clamping, a clamping cylinder 545 for driving the clamping plate to slide arranged on the clamping seat 543, and a hook plate 546 for clamping and holding the sieve, the clamping plate 544 and the clamping seat 543 slide in a sliding track and groove structure, which is well known and not described herein. A lifting cylinder 547 is arranged on the outer side of each clamping plate 544, a lifting seat 548 is arranged on a piston rod of the lifting cylinder 547, second clamping cylinders 549 are respectively arranged on the left side and the right side of the lifting seat 548, and a clamping auxiliary plate 540 is arranged on each second clamping cylinder 549. The auxiliary clamping plate 540 is L-shaped, and when the second clamping cylinder 549 retracts, the inner side surface of the auxiliary clamping plate 540 is close to the screen plate. The sides of the auxiliary clamping plate 540 are bent outward to form arc-striking prevention sides 5401.
The sieve plate stacking mechanism 6 is positioned on one side of the forming mechanism 4 opposite to the sieve plate conveying mechanism 5, and the structure of the sieve plate stacking mechanism 6 is the same as that of the sieve plate conveying mechanism 5.
The extrusion output mechanism 2 comprises a support 21, an output pipe 22 arranged on the support 21, a bolt conveying shaft 23 arranged in the output pipe 22, a spiral servo motor 24 arranged on the support and used for driving the spiral conveying shaft 23, and a feed hopper 25 arranged on the support 21The output pipe 22 is provided with a feed inlet 221 and a discharge outlet 222,what is needed isThe lower end of the feed hopper 25 is communicated with a feed inlet 221. The side wall of the feed hopper 25 is provided with a through hole 251, the inner side wall of the feed hopper 25 is hinged with a cover plate 252, the lower end of the cover plate 252 is provided with a spring 253 which supports the cover plate 252 so that the projection of the through hole 251 in the transverse direction does not intersect with the cover plate 252, when the cover plate 252 is pressed, the projection of the through hole 251 in the transverse direction is positioned on the cover plate 252, an inductor 26 which is used for inducing whether the material in the feed hopper 25 is full is arranged outside the feed hopper 25, and the inductor 26 points to the feed hopper 25 through the through hole 251.
A return conveyer belt 7 can be arranged between the forming mechanism and the extrusion output mechanism, so that leftover materials during forming are recovered and conveyed into a feed hopper for recycling; a screw conveying mechanism 11 is further disposed between the blanking mechanism and the extrusion output mechanism for blanking the material, and the structure thereof is well known and will not be described herein. A sieve plate input device can be added at one side of the sieve plate conveying mechanism and used for conveying sieve plates to a stacking station; the blanking mechanism, the blank conveying mechanism, the forming mechanism, the conveying belt, the ratchet wheel, the traveling mechanism, the bolt conveying shaft and the sensor are conventional equipment in the field, and the structure is known and is not described herein again.
A mosquito-repellent incense blank forming process based on the same invention concept comprises the following steps:
the method comprises the following steps that firstly, materials are loaded into a blanking mechanism, the blanking mechanism releases the materials to enter an extrusion output mechanism, the extrusion output mechanism comprises a feed hopper, a sensor for sensing whether the materials overflow or not is arranged on the feed hopper, and when the materials enter the sensor, the blanking mechanism stops blanking;
secondly, after being extruded by the extrusion output mechanism, the extruded material is conveyed into a forming mechanism through a material blank conveying mechanism, and the forming mechanism forms a mosquito-repellent incense material blank;
thirdly, arranging a first sensor at the sieve plate conveying mechanism to sense the stock of sieve plates at the caching station, arranging a plurality of sieve plate stack storage positions at the caching station, arranging a second sensor at each sieve plate stack storage position to sense the stock of the sieve plates, when the first sensor sends a signal, transferring the transferring device to the sieve plate stack storage position closest to the caching station and having the stock, transferring the sieve plates, clamping and transferring the sieve plate stacks at the caching station by the sieve plate conveying mechanism, when the transferring device clamps the sieve plates above the caching station, starting a lifting cylinder to push a lifting seat down to drive a clamping auxiliary plate to move down so as to cover the sieve plates connected with the lower end of the transferring device and the sieve plates on the caching station, starting a second clamping cylinder, then releasing the sieve plates, realizing the support of the sieve plates through more than four ratchet wheels, and then rotating a rotating roller to release the sieve plates one by one, the sieve plate is conveyed to the lower part of the forming mechanism by a conveying belt;
fourthly, the forming mechanism outputs the mosquito-repellent incense blanks on the sieve plate;
fifthly, stacking the sieve plates filled with the mosquito-repellent incense blanks by using a sieve plate stacking mechanism.
This mosquito-repellent incense blank forming device passes through unloading mechanism, extrusion output mechanism, blank conveying mechanism, forming mechanism, sieve conveying mechanism's setting, sieve pile up neatly mechanism can also be added to the opposite side at forming mechanism, can also set up the feed back conveyer belt between forming mechanism and extrusion output mechanism, sieve input device can also be added in sieve conveying mechanism one side and be used for the sieve to pile up neatly station transport sieve, sieve pile up neatly mechanism structure can be the same with sieve conveying mechanism, thereby an assembly line that can realize automatic operation has been formed, realize the reduction of cost of labor. The sieve plate conveying mechanism comprises a conveying belt, a buffer station, a stacking station and a transfer device, so that the transfer device can be used for transferring the sieve plate stack from stacking to the buffer station, and the buffer station is provided with a rotating roller, a ratchet wheel and a sieve plate servo motor, so that the sieve plates can be released one by one; furthermore, a lifting cylinder is arranged on the outer side of each clamping plate, a lifting seat is arranged on a piston rod of each lifting cylinder, second clamping cylinders are respectively arranged on the left side and the right side of each lifting seat, and a clamping auxiliary plate is arranged on each second clamping cylinder. The clamping auxiliary plate is L-shaped, and when the second clamping cylinder retracts, the inner side surface of the clamping auxiliary plate is close to the sieve plate. And each edge of the clamping auxiliary plate bends outwards to form an arc-touching-proof edge. The arrangement can prevent the dislocation or toppling of the sieve plate when the sieve plate is released to the buffer station by the transfer device due to the dislocation caused by reasons such as improper stroke, error caused by shaking, deflection of the sieve plate stack and the like; further, the through-hole has been seted up on the lateral wall of feeder hopper, the articulated apron that is equipped with on the inside wall of feeder hopper, the apron lower extreme is equipped with the support apron and does not have intersected spring in order to realize through-hole projection and apron in horizontal direction, and when the apron pressurized, the through-hole projection is located the apron in horizontal direction, the feeder hopper is equipped with the inductor that is used for responding to whether the material is excessive in the feeding hopper outward, the inductor sees through in the directional feeder hopper of through-hole, sets up like this and can realize the accurate control to the material, prevents excessive unloading.
While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. A mosquito-repellent incense material blank forming device which is characterized in that: the automatic feeding device comprises a rack, a blanking mechanism, an extrusion output mechanism, a material blank conveying mechanism, a forming mechanism and a sieve plate conveying mechanism, wherein the blanking mechanism, the extrusion output mechanism, the material blank conveying mechanism and the sieve plate conveying mechanism are arranged on the rack according to an assembly line, the conveying direction of the material blank conveying mechanism and the conveying direction of the sieve plate conveying mechanism are arranged in a crossed mode, the sieve plate conveying mechanism comprises a conveying belt, a buffer station, a stacking station and a transfer device, the conveying belt is arranged on the rack and is used for conveying sieve plates, the buffer station is arranged on the rack and is used for transferring and releasing the sieve plates on the stacking station to the buffer station, the buffer station comprises two rotating rollers which are rotatably arranged on the rack, more than two ratchet wheels which are arranged on each rotating roller and are used for clamping and supporting the sieve plates, and, move and carry the device including locating the support frame in the frame, along the running gear of support frame walking, can follow the grip slipper of running gear oscilaltion, the lift drive of drive grip slipper oscilaltion, locate the grip slipper around both sides slide along the grip slipper in order to realize the grip block, locate the gliding centre gripping cylinder of drive grip block on the grip slipper, the lower extreme of grip block is equipped with the hook plate that is used for the card to put the sieve.
2. A mosquito incense blank molding apparatus according to claim 1, wherein: and a lifting cylinder is arranged on the outer side of each clamping plate, a lifting seat is arranged on a piston rod of the lifting cylinder, second clamping cylinders are respectively arranged on the left side and the right side of the lifting seat, and a clamping auxiliary plate is arranged on each second clamping cylinder.
3. A mosquito incense blank molding apparatus according to claim 2, wherein: the clamping auxiliary plate is L-shaped, and when the second clamping cylinder retracts, the inner side surface of the clamping auxiliary plate is close to the sieve plate.
4. A mosquito incense blank molding apparatus according to claim 3, wherein: and each edge of the clamping auxiliary plate bends outwards to form an arc-touching-proof edge.
5. A mosquito coil blank molding apparatus according to claim 1, 2, 3 or 4, wherein: and a sieve plate stacking mechanism is arranged on one side, opposite to the sieve plate conveying mechanism, of the forming mechanism on the rack, and the structure of the sieve plate stacking mechanism is the same as that of the sieve plate conveying mechanism.
6. A mosquito coil blank molding apparatus according to claim 1, 2, 3 or 4, wherein: the extrusion output mechanism comprises a support, an output pipe arranged on the support, a bolt conveying shaft arranged in the output pipe, a spiral servo motor arranged on the support and used for driving the spiral conveying shaft, and a feed hopper arranged on the support, wherein the output pipe is provided with a feed inlet and a discharge outlet, and the lower end of the feed hopper is communicated with the feed inlet.
7. A mosquito incense blank forming device according to claim 6, wherein: the feeding hopper is characterized in that a through hole is formed in the side wall of the feeding hopper, a cover plate is hinged to the inner side wall of the feeding hopper, a supporting cover plate is arranged at the lower end of the cover plate to achieve that the projection of the through hole in the transverse direction does not intersect with the cover plate, the projection of the through hole in the transverse direction is located on the cover plate when the cover plate is pressed, an inductor used for inducing whether materials in the feeding hopper are overflowed or not is arranged outside the feeding hopper, and the inductor penetrates through the through hole and points into the feeding hopper.
CN201920041854.2U 2019-01-10 2019-01-10 Mosquito-repellent incense blank forming device Active CN209950220U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920041854.2U CN209950220U (en) 2019-01-10 2019-01-10 Mosquito-repellent incense blank forming device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920041854.2U CN209950220U (en) 2019-01-10 2019-01-10 Mosquito-repellent incense blank forming device

Publications (1)

Publication Number Publication Date
CN209950220U true CN209950220U (en) 2020-01-17

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201920041854.2U Active CN209950220U (en) 2019-01-10 2019-01-10 Mosquito-repellent incense blank forming device

Country Status (1)

Country Link
CN (1) CN209950220U (en)

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