CN114229408B - Automatic feeding machine for manufacturing of warmer sticker - Google Patents

Abstract

The invention relates to the technical field of warmer stickers, in particular to an automatic feeding machine for warmer sticker manufacturing, which comprises a base, a screening unit and a feeding unit, wherein the base is provided with the screening unit and the feeding unit; the existing feeding device also has the following problems: the feeding device only performs simple screening treatment on the heating material, so that the caking in the heating material cannot be removed; the mould adopted by the feeding device easily enables the heating material to be scattered, so that the loss of the heating material can be caused; the invention can carry out multistage vibration screening treatment on the heating material, thereby effectively removing caking in the heating material and preventing the caking from influencing the use effect of the heating pad in the later period; the invention can carry out corresponding sectional treatment and shaping treatment on the heating material, and can prevent the heating material from being scattered in the process, thereby reducing the loss of the heating material.

Description

Automatic feeding machine for manufacturing of warmer sticker

Technical Field

The invention relates to the technical field of baby warmer stickers, in particular to an automatic feeding machine for manufacturing a baby warmer sticker.

Background

The warmer paste is a tool for heating, and chemical energy is converted into heat energy mainly through the exothermic reaction of iron oxide by the heating material in the warmer paste; warm baby pastes in the manufacture process, at first will generate heat the material through the workman and mix the stirring, then sieve the material that generates heat to clear away the inside caking of the material that generates heat, the automatic conveyor of rethread generates heat the material and carries to the packing district, thereby the later stage of being convenient for is to the preparation of warm baby subsides.

However, the currently adopted warmer sticker feeding device has the following problems: 1. present loading attachment mixes the stirring to the material that generates heat earlier, then carries out simple screening to the material that generates heat that the stirring was accomplished and handles after, just will generate heat the material and carry to next process, because the material that generates heat exists the caking easily at the stirring in-process, the caking in the material that generates heat can't be clear away to the screening mode that consequently the device adopted, and screening efficiency is low, therefore the caking influences the result of use in the material later stage that generates heat easily.

2. When the feeding device conveys the heating material, the heating material is generally molded through a special die, so that the operation is complicated, and a small amount of the heating material is easily remained in the die, so that the heating material in the die is easily scattered when the die is demolded, the loss of the heating material is caused, and the processing cost is increased.

Disclosure of Invention

The technical problem to be solved is as follows: the automatic feeding machine for manufacturing the warmer sticker, provided by the invention, can solve the problems pointed out in the background technology.

The technical scheme is as follows: in order to achieve the purpose, the invention adopts the following technical scheme that the automatic feeding machine for manufacturing the warmer patches comprises a base, a screening unit and a feeding unit, wherein the screening unit and the feeding unit are installed on the base, and the feeding unit is positioned on the right side of the screening unit.

Screening unit includes annular section of thick bamboo, a toper section of thick bamboo, feed opening, a motor, bevel gear, fixed tooth, screening frame, vibrations subassembly and mediation subassembly, wherein: the left side of the upper end of the base is provided with an annular cylinder, the conical cylinder is positioned above the annular cylinder, a conical surface on the lower side of the conical cylinder is rotatably connected with the annular cylinder, the lower end of the conical cylinder is provided with a feed opening, the left end of the annular cylinder is provided with a motor through a motor base, an output shaft of the motor is fixedly sleeved with a bevel gear, fixed teeth meshed with the bevel gear are uniformly arranged on the lower side of the conical cylinder in the circumferential direction, a plurality of screening frames are arranged on the inner wall of the conical cylinder in a sliding manner at equal intervals from top to bottom, a vibration assembly is arranged on the outer wall of the conical cylinder, and a dredging assembly is arranged in the base and the conical cylinder; the screening unit can turn the material that generates heat to the better material that generates heat sieves, thereby can ensure that the material that generates heat accords with the operation requirement of processing requirement and later stage, and can reduce the used operating time of screening.

The mediation subassembly includes backup pad, accessory plate, installation pole, guide board, gangbar, steel brush, protruding seat, locating lever and mediation pole, wherein: the bottom of the linkage rod is uniformly provided with a plurality of steel brushes, a plurality of convex seats are uniformly arranged at the lower end of the linkage rod and the upper end of the screening frame, a plurality of positioning rods corresponding to the linkage rod are uniformly arranged at the right side of the mounting rod, and a plurality of dredging rods corresponding to the blanking hole at the bottom of the screening frame are uniformly arranged at the lower end of the positioning rod; can dredge the processing to the screening frame through the mediation subassembly, consequently can prevent that the material that generates heat from plugging up the screening frame to can strengthen the screening efficiency of screening frame to the material that generates heat.

The material loading unit includes through-hole, locating plate, pivot, No. three motors, conveyer belt, transport link joint and segmentation subassembly, wherein: the right side of the annular cylinder is provided with a through hole, the upper end of the base is provided with four positioning plates arranged in a matrix manner, wherein the two positioning plates on the left side are positioned inside the annular cylinder, the two positioning plates on the right side are positioned on the right side of the upper end of the base, a rotating shaft is rotatably arranged between the positioning plates on the front side and the rear side, the front end of the positioning plate positioned on the right side of the base and close to the front side of the base is provided with a third motor through a supporting seat, the output shaft of the third motor is connected with the rotating shaft, a conveying belt is sleeved between the left rotating shaft and the right rotating shaft, the outer wall of the conveying belt is sleeved with a conveying chain plate, and a segmentation assembly is arranged on the annular cylinder; the automatic feeding of the material that generates heat can be realized to the material loading unit, and during, can carry out segmentation and moulding with the material that generates heat and handle for the material that generates heat is the cuboid of being convenient for process, so that carry out the preparation processing in later stage to it.

As a preferred technical scheme of the invention, the vibration assembly comprises a sliding groove, a bearing plate, a return spring, a connecting plate, a second motor and a transmission cam, wherein: a plurality of groups of connecting groove groups corresponding to the positions of the screening frames are arranged on the outer wall of the conical barrel at equal intervals from top to bottom, each connecting groove group comprises a plurality of sliding grooves uniformly formed along the circumferential direction of the conical barrel, a plurality of supporting plates corresponding to the positions of the sliding grooves are uniformly arranged on the outer wall of the screening frame in the circumferential direction, one side of each supporting plate, far away from the screening frame, penetrates through the sliding groove in a sliding manner and is provided with a connecting plate, a reset spring is connected between the upper end of each supporting plate and the corresponding sliding groove, a plurality of mounting grooves corresponding to the positions of the sliding grooves are uniformly formed in the circumferential direction of the lower side of the outer wall of the conical barrel, a second motor is arranged in each mounting groove, a transmission cam is fixedly sleeved on an output shaft of the second motor, and the circumferential surface of the outer wall of the transmission cam is abutted against the bottom of each connecting plate; the vibrations subassembly can make the screening frame reciprocate vibrations from top to bottom, consequently is convenient for carry out vibration screening to the material that generates heat in the screening frame to can make the screening frame cooperation a toper section of thick bamboo reinforcing to the screening intensity of the material that generates heat, thereby can reject the caking in the material that generates heat, make the material that generates heat accord with operation requirement.

As a preferred technical scheme of the invention, the height of the annular cylinder is a structure gradually increasing from left to right, and the conical cylinder is obliquely arranged on the annular cylinder; because the conical barrel is obliquely arranged, when the conical barrel rotates, the heating material in the conical barrel moves circumferentially along the conical barrel under the action of gravity, so that the heating material is turned.

As a preferred technical scheme of the invention, the plurality of screening frames are all in a conical structure, the aperture of the plurality of screening frames is gradually reduced from top to bottom, and the plurality of screening frames adopt the sequentially reduced aperture from top to bottom to carry out multi-stage screening on the heating material, so that the screening effect on the heating material can be enhanced; the upper end of the screening frame is provided with an annular baffle; the heating material on the screening frame can be limited through the annular baffle, and the heating material is prevented from falling into a gap between the screening frame and the conical barrel.

As a preferred technical scheme of the invention, the cross section of the conveying chain plate is of a structure with the thickness of two sides larger than that of the middle part, and arc-shaped chamfers are arranged between the front side and the rear side of the conveying chain plate and the middle part of the conveying chain plate; when the heating material that the screening was accomplished falls on carrying the link joint through the feed opening, can lead heating material through its special construction for heating material falls in the middle part of carrying the link joint, thereby prevents that heating material from spilling from carrying the link joint at the in-process that falls down, can reduce heating material's loss.

As a preferred technical scheme of the invention, the segmentation assembly comprises a fixed plate, a cylinder, a linkage plate, a material baffle plate, a support column and a plastic plate, wherein: the right end of the annular cylinder is provided with a fixed plate, the fixed plate is positioned above the through hole, the lower end of the fixed plate is provided with a linkage plate through a cylinder, the lower end of the linkage plate is bilaterally symmetrically provided with a baffle plate and a support column, the baffle plate is arranged on the conveying chain plate in a sliding manner, and the lower end of the support column is provided with a plastic plate in sliding connection with the conveying chain plate; the segmentation subassembly can carry out the shutoff through the striker plate with its left material that generates heat, then carries out moulding through the material that generates heat on shaped plate with the striker plate right side for the material that generates heat on striker plate right side is the cuboid of processing of being convenient for, so that carry out the preparation processing in later stage to it.

As a preferred technical scheme of the invention, the cross section of the material baffle plate is the same as the cross section of the conveying chain plate in shape, and a plurality of brushes are uniformly arranged at the connecting part of the material baffle plate and the conveying chain plate; when the striker plate leans on the conveying chain plate, the brush can be matched with the striker plate to block the left heating material of the striker plate, and meanwhile, the brush can brush away the residual heating material on the upper end of the conveying chain plate, so that the heating material can be prevented from leaking from a gap between the striker plate and the conveying chain plate, the leaking heating material is prevented from moving to the outside of the device along with the conveying chain plate, and therefore the loss of the heating material can be effectively reduced.

As a preferred technical scheme of the invention, the plastic plate is of a v-21274-shaped structure with a downward opening, the distance between the front side wall and the rear side wall of the lower side of the plastic plate is gradually reduced from left to right, the top of the plastic plate is of an inclined structure with the gradually reduced from left to right, and a certain distance is reserved between the right side of the top of the plastic plate and the conveying chain plate; when the heating material below the shaping plate moves to the right side under the action of the conveying chain plate, the shaping plate can shape the heating material into a cuboid, so that the heating material after shaping is manufactured and processed in the later stage.

Thirdly, the beneficial effects are that: 1. the heating material feeding device can perform multi-stage vibration screening treatment on the heating material during the feeding period, so that caking in the heating material can be effectively removed, the heating material meets the use requirement, and the later use effect of the warmer sticker is prevented from being influenced by the caking; the heating material can be subjected to corresponding sectional treatment according to the processing requirement, and the heating material subjected to sectional treatment can be subjected to shaping treatment, so that the heating material can be subjected to later-stage manufacturing and processing, and the heating material can be prevented from being scattered, and the loss of the heating material can be reduced.

2. The screening unit provided by the invention can be used for turning the heating material so as to better screen the heating material, thereby ensuring that the heating material meets the processing requirement and the later use requirement and reducing the working time for screening.

3. The feeding unit provided by the invention can realize automatic feeding of the heating material, and can perform segmentation and shaping treatment on the heating material in the period, so that the heating material is in a cuboid shape which is convenient to process.

4. The vibrating component can enable the screening frame to vibrate up and down in a reciprocating mode, so that the heating materials in the screening frame can be conveniently screened in a vibrating mode, and the screening frame can be matched with the conical barrel to enhance the screening strength of the heating materials.

5. The plurality of screening frames are sequentially reduced from top to bottom, so that the heating materials can be screened in multiple stages, and the screening effect on the heating materials can be enhanced.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a top view of the present invention.

FIG. 3 is a cross-sectional view taken along line Q-Q of FIG. 2 of the present invention.

Figure 4 is a partial cutaway view of the cone, screen frame, vibrating assembly and deoccluding assembly of the present invention.

Fig. 5 is a partial enlarged view of the invention at P of fig. 4.

Fig. 6 is a partial perspective view of the loading unit of the present invention.

Fig. 7 is a partial enlarged view of the invention at Y of fig. 6.

Fig. 8 is a partial enlarged view at T of fig. 3 of the present invention.

In the figure: 1. a base; 2. a screening unit; 21. an annular cylinder; 22. a tapered barrel; 23. a feeding port; 24. a first motor; 25. a bevel gear; 26. fixing teeth; 27. screening frames; 271. an annular baffle; 28. a vibration assembly; 281. a sliding groove; 282. a support plate; 283. a return spring; 284. a connecting plate; 285. a second motor; 286. a drive cam; 29. a dredging component; 291. a support plate; 292. an auxiliary plate; 293. mounting a rod; 294. a guide plate; 295. a linkage rod; 296. a steel brush; 297. a boss base; 298. positioning a rod; 299. dredging the rod; 3. a feeding unit; 31. a through hole; 32. positioning a plate; 33. a rotating shaft; 34. a third motor; 35. a conveyor belt; 36. conveying chain plates; 37. a segmentation component; 371. a fixing plate; 372. a cylinder; 373. a linkage plate; 374. a striker plate; 375. a support pillar; 376. a plastic plate; 377. and a brush.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

Referring to fig. 1 and 2, an automatic feeding machine for manufacturing a warmer sticker comprises a base 1, a screening unit 2 and a feeding unit 3, wherein the screening unit 2 and the feeding unit 3 are installed on the base 1, and the feeding unit 3 is located on the right side of the screening unit 2.

Referring to fig. 1, 2, 3 and 4, the sieving unit 2 includes an annular cylinder 21, a conical cylinder 22, a feed opening 23, a first motor 24, a bevel gear 25, a fixed tooth 26, a sieving frame 27, a vibrating assembly 28 and a dredging assembly 29, wherein: the left side of the upper end of the base 1 is provided with an annular cylinder 21, a conical cylinder 22 is positioned above the annular cylinder 21, the conical surface of the lower side of the conical cylinder 22 is rotatably connected with the annular cylinder 21, the height of the annular cylinder 21 is a structure gradually increasing from left to right, and the conical cylinder 22 is obliquely arranged on the annular cylinder 21; because the conical cylinder 22 is obliquely arranged, when the conical cylinder 22 rotates, the heating material in the conical cylinder 22 moves circumferentially under the action of gravity, so that the heating material is turned, the heating material is conveniently screened, and the working time for screening can be reduced; the lower end of the conical cylinder 22 is provided with a feed opening 23, the left end of the annular cylinder 21 is provided with a first motor 24 through a motor base, an output shaft of the first motor 24 is fixedly sleeved with a bevel gear 25, fixed teeth 26 meshed with the bevel gear 25 are uniformly and circumferentially arranged on the lower side of the conical cylinder 22, the inner wall of the conical cylinder 22 is provided with a plurality of screening frames 27 in a sliding mode at equal intervals from top to bottom, the screening frames 27 are all of a conical structure, the aperture of each screening frame 27 is gradually reduced from top to bottom, and the apertures of the screening frames 27 are sequentially reduced from top to bottom to carry out multi-stage screening on the heating materials, so that the screening effect on the heating materials can be enhanced; the upper end of the screening frame 27 is provided with an annular baffle 271; the heating material on the screening frame 27 can be limited through the annular baffle 271, and the heating material is prevented from falling into a gap between the screening frame 27 and the conical barrel 22; the vibration assembly 28 is arranged on the outer wall of the conical barrel 22, and the dredging assembly 29 is arranged in the base 1 and the conical barrel 22.

During specific work, firstly, the first motor 24 is turned on, the first motor 24 drives the bevel gear 25 to rotate, the bevel gear 25 drives the conical cylinder 22 to rotate through the fixed teeth 26, then the heating material after stirring is poured into the conical cylinder 22, the conical cylinder 22 drives the heating material inside the conical cylinder through the screening frame 27 to rotate, so that the conical cylinder 22 can screen the heating material through a plurality of screening frames 27 inside the conical cylinder, and in the process, the screening frames 27 can be driven to shake the heating material through the shaking component 28.

Referring to fig. 3 and 4, the vibration assembly 28 includes a sliding slot 281, a support plate 282, a return spring 283, a connection plate 284, a second motor 285 and a transmission cam 286, wherein: a plurality of groups of connecting slot groups corresponding to the positions of the screening frames 27 are formed in the outer wall of the conical barrel 22 at equal intervals from top to bottom, each connecting slot group comprises a plurality of sliding slots 281 uniformly formed in the circumferential direction of the conical barrel 22, a plurality of supporting plates 282 corresponding to the positions of the sliding slots 281 are uniformly arranged in the circumferential direction of the outer wall of the screening frame 27, one side, far away from the screening frame 27, of each supporting plate 282 slides through the corresponding sliding slot 281 and is provided with a connecting plate 284, a reset spring 283 is connected between the upper end of each supporting plate 282 and the corresponding sliding slot 281, a plurality of mounting slots corresponding to the positions of the sliding slots 281 are uniformly formed in the circumferential direction of the lower side of the outer wall of the conical barrel 22, the second motor 285 is arranged in each mounting slot, a transmission cam 286 is fixedly sleeved on an output shaft of the second motor 285, and the circumferential surface of the outer wall of the transmission cam 286 is abutted against the bottoms of the connecting plates 284; it should be noted that the return spring 283 allows the support plate 282 to always have a downward movement tendency; when the heating device works specifically, after the heating material is poured into the conical barrel 22, the second motor 285 is turned on, the second motor 285 drives the transmission cam 286 to rotate, during this period, the driving cam 286 may drive the connection plates 284 to move upward, so that the plurality of connection plates 284 may drive the screening frame 27 to move upward through the support plates 282, and then the connection plates 284 and the support plates 282 are rapidly reset downward by the reset springs 283, so that the screening frame 27 can vibrate up and down to facilitate the vibration screening of the heating material in the screening frame 27, thereby being capable of enhancing the screening strength of the exothermic material in cooperation with the tapered barrel 22, so that the remaining agglomerates in the exothermic material will remain in the screening frame 27, and the heating material meeting the use requirement falls on the feeding unit 3 through the screening frame 27 and the discharging port 23, so that the caking in the heating material can be removed, and the heating material meets the use requirement.

Referring to fig. 4 and 5, the dredging assembly 29 comprises a supporting plate 291, an auxiliary plate 292, a mounting rod 293, a guiding plate 294, a linkage rod 295, a steel brush 296, a protrusion seat 297, a positioning rod 298 and a dredging rod 299, wherein: a supporting plate 291 is mounted on the top of the base 1, the supporting plate 291 is located on the left side of the annular cylinder 21, an auxiliary plate 292 is arranged at the right end of the supporting plate 291, a mounting rod 293 is fixedly arranged at the lower end of the right side of the auxiliary plate 292, the bottom of the mounting rod 293 extends into the blanking port 23 and is connected with a guide plate 294, the top of the guide plate 294 gradually inclines downwards from right to left, the left side of the guide plate 294 is vertically arranged with the base 1, a plurality of linkage rods 295 corresponding to the positions of the screening frames 27 are uniformly arranged on the left side of the outer wall of the mounting rod 293 from top to bottom through torsion springs, a plurality of steel brushes 296 are uniformly arranged at the bottoms of the linkage rods 295, a plurality of convex seats 297 are uniformly arranged at the lower ends of the linkage rods 295 and the upper ends of the screening frames 27, a plurality of positioning rods 298 corresponding to the positions of the linkage rods 295 are uniformly arranged on the right side of the mounting rod 293, a plurality of dredging rods 299 corresponding to the blanking holes at the bottoms of the screening frames 27 are uniformly arranged at the lower ends of the positioning rods 298, the dredging rod 299 is of a telescopic structure, when the screening frame 27 rotates, the dredging rod 299 can vibrate up and down in a reciprocating mode, so that the dredging rod 299 can be inserted into a blanking hole of the screening frame 27, then the dredging rod 299 can reset quickly under the action of elasticity of the dredging rod 299, the bottom of the dredging rod 299 is of a semicircular structure, and the dredging rod 299 can be conveniently inserted into the blanking hole of the screening frame 27; it should be noted that the torsion spring makes the linkage rod 295 always keep a tendency to swing to the rear side (as shown in fig. 4), and the mounting rod 293 does not rotate;

during specific work, because the conical barrel 22 is obliquely arranged, when the screening frame 27 rotates, the heating materials in the screening frame 27 are gathered on the left side of the screening frame 27, and during the period, because the screening frame 27 rotates and vibrates up and down in a reciprocating manner, when the screening frame 27 moves downwards, the screening frame 27 can drive the linkage rod 295 to swing forwards in a small range through the protrusion seat 297, and then the screening frame 27 moves upwards, so that the protrusion seats 297 on the upper and lower sides are separated, and the linkage rod 295 returns under the action of the torsion spring, so that the linkage rod 295 can drive the steel brush 296 to clean the heating materials at the top of the screening frame 27 into a blanking hole of the screening frame 27 in the swinging process; meanwhile, the screening frame 27 can vibrate up and down while rotating, when the screening frame 27 moves down, the positioning rod 298 can drive the dredging rod 299 to penetrate into the blanking hole of the screening frame 27, so that the blanking hole of the screening frame 27 can be dredged, the heat-generating materials are prevented from being accumulated in the blanking hole to influence the screening effect of the screening frame 27, and then the screening frame 27 moves down, so that the dredging rod 299 is pulled out of the blanking hole of the screening frame 27; the screen frame 27 then continues to rotate, during which the above-described steps are repeated, so that the screen frame 27 can be subjected to a dredging process.

Referring to fig. 1, 2, 3, 6 and 7, the feeding unit 3 includes a through hole 31, a positioning plate 32, a rotating shaft 33, a third motor 34, a conveyor belt 35, a conveying chain plate 36 and a segment assembly 37, wherein: the right side of the annular cylinder 21 is provided with a through hole 31, the upper end of the base 1 is provided with four positioning plates 32 which are arranged in a matrix manner, wherein the two positioning plates 32 on the left side are positioned inside the annular cylinder 21, the two positioning plates 32 on the right side are positioned on the right side of the upper end of the base 1, a rotating shaft 33 is rotatably arranged between the positioning plates 32 on the front side and the rear side, the front end of the positioning plate 32 on the right side of the base 1 and close to the front side of the base 1 is provided with a third motor 34 through a supporting seat, the output shaft of the third motor 34 is connected with the rotating shaft 33, a conveying belt 35 is sleeved between the left rotating shaft 33 and the right rotating shaft 33, the outer wall of the conveying belt 35 is sleeved with a conveying chain plate 36, the cross section of the conveying chain plate 36 is of a structure with the thickness of two sides larger than the thickness of the middle, and arc chamfers are arranged between the front side and the rear side of the conveying chain plate 36 and the middle part of the conveying chain plate; when the screened heating materials fall on the conveying chain plate 36 through the discharge opening 23, the heating materials can be guided through the special structure of the conveying chain plate 36, so that the heating materials fall on the middle part of the conveying chain plate 36, the heating materials are prevented from being scattered from the conveying chain plate 36 in the falling process, and the loss of the heating materials can be reduced; the segment assembly 37 is mounted on the annular cylinder 21; during specific work, the heating material that the screening was accomplished drops on carrying link joint 36 through feed opening 23, then open No. three motor 34, No. three motor 34 drives conveyer belt 35 through pivot 33 and carries out clockwise motion as shown in fig. 3, make conveyer belt 35 drive carry link joint 36 with the heating material to the right side transport, thereby can realize the automatic feeding of heating material, in the meantime, can segment the heating material on carrying link joint 36 through segmentation subassembly 37, make one section heating material be applicable to the preparation that a warm baby pasted, then carry heating material to outside processing equipment in through carrying link joint 36, be convenient for carry out the processing in later stage to heating material.

Referring to fig. 7 and 8, the segment assembly 37 includes a fixing plate 371, a cylinder 372, a linkage plate 373, a striker plate 374, a support column 375, and a shaping plate 376, wherein: a fixing plate 371 is mounted at the right end of the annular cylinder 21, the fixing plate 371 is located above the through hole 31, a linkage plate 373 is mounted at the lower end of the fixing plate 371 through a cylinder 372, a material blocking plate 374 and a supporting column 375 are symmetrically arranged at the lower end of the linkage plate 373 left and right, the material blocking plate 374 is slidably arranged on the conveying chain plate 36, the cross section of the material blocking plate 374 is the same as that of the conveying chain plate 36, and a plurality of brushes 377 are uniformly mounted at the connecting part of the material blocking plate 374 and the conveying chain plate 36; when the material blocking plate 374 is attached to the conveying chain plate 36, the brush 377 can be matched with the material blocking plate 374 to block the heating material on the left side of the material blocking plate 374, meanwhile, the brush 377 can brush away the residual heating material on the upper end of the conveying chain plate 36, so that the heating material is prevented from leaking from a gap between the material blocking plate 374 and the conveying chain plate 36, the leaked heating material is prevented from moving to the outside of the device along with the conveying chain plate 36, and therefore the loss of the heating material can be effectively reduced; the lower end of the supporting column 375 is provided with a shaping plate 376 which is connected with the conveying chain plate 36 in a sliding way; the shaping plate 376 is of a v-21274structure with a downward opening, the distance between the front side wall and the rear side wall of the lower side of the shaping plate 376 gradually decreases from left to right, the top of the shaping plate 376 is of an inclined structure gradually decreasing from left to right, and a certain distance is reserved between the right side of the top of the shaping plate 376 and the conveying chain plate 36; when the heating material located below the molding plate 376 moves to the right side under the action of the conveying chain plate 36, the molding plate 376 can mold the heating material into a cuboid, so that the molded heating material can be manufactured and processed in the later period; it should be noted that, if the length of the segment of the heating material needs to be adjusted, only the lifting frequency of the cylinder 372 needs to be adjusted, so that the cylinder 372 drives the linkage plate 373 to perform the segment processing of different lengths on the heating material.

During specific work, when the conveying chain plate 36 drives the heating material to move towards the right side, the cylinder 372 is opened, the cylinder 372 drives the baffle 374 to move downwards and abut against the upper end of the conveying chain plate 36 through the linkage plate 373, so that the baffle 374 divides the heating material at the upper end of the conveying chain plate 36 into two parts by taking the baffle 374 as a center point, the length of the heating material at the right side of the baffle 374 is equal to the gap between the baffle 374 and the shaping plate 376, meanwhile, the heating material at the left side of the baffle can be blocked, meanwhile, the linkage plate 373 drives the shaping plate 376 to abut against the conveying chain plate 36 downwards through the support column 375, so that the shaping plate 376 can shape the heating material at the right side of the baffle 374, the heating material at the right side of the baffle 374 is cuboid, and then the finished heating material is conveyed towards the right side to external processing equipment; after finishing the heat-generating material on the right side of the material baffle 374, the cylinder 372 drives the material baffle 374 and the shaping plate 376 to reset upwards through the linkage plate 373, at the moment, the conveying chain plate 36 drives the heat-generating material to move towards the right side continuously, and when the heat-generating material moves below the shaping plate 376, the cylinder 372 drives the material baffle 374 and the shaping plate 376 to move downwards again through the linkage plate 373, so that the heat-generating material is segmented, finished and shaped; the above working step is an action beat of the segmenting component 37, and by repeating the above action beat, the heating material can be segmented one by one, so as to be convenient for the post-production processing.

The working process of the invention is as follows: the first step is as follows: firstly, mixing and stirring a plurality of heating materials, then driving the conical cylinder 22 to rotate by a first motor 24 in cooperation with the bevel gear 25 and the fixed tooth 26, pouring the stirred heating materials into the conical cylinder 22, and screening the heating materials in the conical cylinder 22.

The second step is that: open No. two motor 285, drive cam 286 through No. two motor 285 and rotate, drive cam 286 cooperation reset spring 283 can make connecting plate 284 and supporting board 282 drive screening frame 27 and upwards move to reciprocating vibration about screening frame 27 can carry out, be convenient for carry out vibrations screening to the exothermic material in the screening frame 27, the exothermic material that accords with operation requirement afterwards falls on material loading unit 3 through feed opening 23.

The third step: the third motor 34 is turned on, the third motor 34 drives the conveyor belt 35 to move clockwise, the conveyor belt 35 drives the conveying chain plate 36 to convey the heating material to the right side, so that automatic feeding of the heating material can be realized, then the cylinder 372 is turned on, the cylinder 372 drives the baffle 374 to move downwards through the linkage plate 373 and to abut against the upper end of the conveying chain plate 36, the baffle 374 divides the heating material at the upper end of the conveying chain plate 36 into two parts by taking the baffle 374 as a central point, meanwhile, the heating material at the left side of the baffle can be blocked, meanwhile, the linkage plate 373 drives the plastic plate 376 to abut against the conveying chain plate 36 downwards, so that the heating material at the right side of the baffle 374 can be subjected to shaping treatment through the plastic plate 376, the heating material at the right side of the baffle is cuboid, and then the finished heating material is conveyed into external processing equipment to the right side through the conveying chain plate 36, so as to facilitate the post-production and processing of the heating material.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a warm baby pastes preparation automatic feeding machine, includes base (1), screening unit (2) and material loading unit (3), its characterized in that: install screening unit (2) and material loading unit (3) on base (1), material loading unit (3) are located the right side of screening unit (2), wherein:

screening unit (2) are including annular section of thick bamboo (21), a toper section of thick bamboo (22), feed opening (23), a motor (24), bevel gear (25), fixed tooth (26), screening frame (27), vibrations subassembly (28) and mediation subassembly (29), wherein: the cleaning machine is characterized in that an annular cylinder (21) is installed on the left side of the upper end of the base (1), a conical cylinder (22) is located above the annular cylinder (21), a conical surface on the lower side of the conical cylinder (22) is rotatably connected with the annular cylinder (21), a feed opening (23) is formed in the lower end of the conical cylinder (22), a first motor (24) is installed at the left end of the annular cylinder (21) through a motor base, a bevel gear (25) is fixedly sleeved on an output shaft of the first motor (24), fixed teeth (26) meshed with the bevel gear (25) are evenly installed on the circumferential direction of the lower side of the conical cylinder (22), a plurality of screening frames (27) are arranged on the inner wall of the conical cylinder (22) in a sliding mode at equal intervals from top to bottom, a vibration assembly (28) is arranged on the outer wall of the conical cylinder (22), and a dredging assembly (29) is installed in the base (1) and the conical cylinder (22);

mediation subassembly (29) includes backup pad (291), accessory plate (292), installation pole (293), guide plate (294), gangbar (295), steel brush (296), protruding seat (297), locating lever (298) and mediation pole (299), wherein: a supporting plate (291) is installed at the top of the base (1), the supporting plate (291) is located on the left side of the annular cylinder (21), an auxiliary plate (292) is arranged at the right end of the supporting plate (291), a mounting rod (293) is fixedly arranged at the lower end of the right side of the auxiliary plate (292), the bottom of the mounting rod (293) extends into the discharging port (23) and is connected with a guide plate (294), a plurality of linkage rods (295) corresponding to the screening frame (27) are uniformly arranged on the left side of the outer wall of the mounting rod (293) from top to bottom through torsion springs, a plurality of steel brushes (296) are uniformly arranged at the bottom of the linkage rods (295), a plurality of protruding seats (297) are uniformly arranged at the lower end of the linkage rod (295) and the upper end of the screening frame (27), a plurality of positioning rods (298) corresponding to the linkage rod (295) are uniformly arranged on the right side of the mounting rod (293), and a plurality of dredging rods (299) corresponding to blanking holes in the bottom of the screening frame (27) are uniformly arranged at the lower end of each positioning rod (298);

the feeding unit (3) comprises a through hole (31), a positioning plate (32), a rotating shaft (33), a third motor (34), a conveying belt (35), a conveying chain plate (36) and a segmenting component (37), wherein: through-hole (31) have been seted up on annular section of thick bamboo (21) right side, base (1) upper end is provided with four locating plate (32) that are the matrix and arrange, wherein, two left locating plate (32) are located annular section of thick bamboo (21) inside, two locating plate (32) on right side are located the upper end right side of base (1), it is provided with pivot (33) to rotate between locating plate (32) of front and back both sides, locating plate (32) front end that is located base (1) right side and is close to base (1) front side installs No. three motor (34) through the supporting seat, the output shaft of No. three motor (34) is connected with pivot (33), the cover is equipped with conveyer belt (35) between controlling two pivot (33), conveyer belt (35) outer wall cover is equipped with carries link joint (36), install on annular section of thick bamboo (21) subassembly (37).

2. The automatic feeding machine for the warmer paste production according to claim 1, characterized in that: the vibrating component (28) comprises a sliding groove (281), a bearing plate (282), a return spring (283), a connecting plate (284), a second motor (285) and a transmission cam (286), wherein: a plurality of groups of connecting groove groups corresponding to the screening frame (27) are arranged on the outer wall of the conical barrel (22) at equal intervals from top to bottom, each connecting groove group comprises a plurality of sliding grooves (281) uniformly arranged along the circumferential direction of the conical barrel (22), a plurality of bearing plates (282) corresponding to the sliding grooves (281) are uniformly arranged on the outer wall of the screening frame (27) in the circumferential direction, one side of each bearing plate (282) far away from the screening frame (27) slides through the sliding grooves (281) and then is provided with a connecting plate (284), a return spring (283) is connected between the upper end of the bearing plate (282) and the sliding groove (281), a plurality of mounting grooves corresponding to the sliding groove (281) are uniformly arranged on the lower side of the outer wall of the conical barrel (22) in the circumferential direction, a second motor (285) is arranged in the mounting grooves, a transmission cam (286) is fixedly sleeved on an output shaft of the second motor (285), and the circumferential surface of the outer wall of the transmission cam (286) is abutted against the bottom of the connecting plate (284).

3. The automatic feeding machine for the warmer paste production according to claim 1, characterized in that: the height of the annular cylinder (21) is a structure gradually increasing from left to right, and the conical cylinder (22) is obliquely arranged on the annular cylinder (21).

4. The automatic feeding machine for the warmer paste production according to claim 1, characterized in that: the screening frames (27) are all in a conical structure, the aperture of each screening frame (27) is gradually reduced from top to bottom, and an annular baffle (271) is arranged at the upper end of each screening frame (27).

5. The automatic feeding machine for the warmer paste production according to claim 1, characterized in that: the cross section of the conveying chain plate (36) is of a structure that the thickness of two sides is larger than that of the middle part, and arc-shaped chamfers are arranged between the front side and the rear side of the conveying chain plate (36) and the middle part of the conveying chain plate.

6. The automatic feeding machine for the warmer paste production according to claim 1, characterized in that: the segmentation component (37) comprises a fixing plate (371), a cylinder (372), a linkage plate (373), a striker plate (374), a supporting column (375) and a shaping plate (376), wherein: fixed plate (371) are installed to the right-hand member of annular section of thick bamboo (21), and fixed plate (371) are located through-hole (31) top, and linkage plate (373) are installed through cylinder (372) to fixed plate (371) lower extreme, and linkage plate (373) lower extreme bilateral symmetry is provided with striker plate (374) and support column (375), and striker plate (374) slide to set up on carrying link joint (36), and support column (375) lower extreme is installed and is carried link joint (36) sliding connection's plastic plate (376).

7. The automatic feeding machine for warmer paste making according to claim 6, characterized in that: the cross section of the material baffle plate (374) is the same as that of the conveying chain plate (36), and a plurality of brushes (377) are uniformly arranged at the connecting part of the material baffle plate (374) and the conveying chain plate (36).

8. The automatic feeding machine for warmer paste making according to claim 6, characterized in that: the plastic plate (376) is of a v-21274structure with a downward opening, the distance between the front side wall and the rear side wall of the lower side of the plastic plate (376) is gradually reduced from left to right, the top of the plastic plate (376) is of an inclined structure which is gradually reduced from left to right, and a certain distance is reserved between the right side of the top of the plastic plate (376) and the conveying chain plate (36).

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