CN217754348U - Vibration shaping device for quantitative filling machine - Google Patents

Abstract

The utility model relates to the technical field of food processing production equipment, in particular to a vibration shaping device for a quantitative filling machine, which comprises a support fixed on the ground, wherein a plurality of parallel guide plates are arranged on the support, and a plurality of conveying channels for mold boxes to pass through are formed between the guide plates; the mould box is characterized by also comprising a material pushing mechanism, a lifting mechanism and a vibrating mechanism fixedly connected to the output end of the lifting mechanism, wherein the material pushing mechanism is used for pushing the mould box to move along the conveying channel; the output end of the vibration mechanism is fixedly connected with a sucker which is positioned right below the conveying channel. Adopt the technical scheme provided by the utility model, can solve prior art and carry out easy dripping everywhere of in-process oil that the oil layering was handled to the hot pot seasoning, lead to food safety to be endangered and the technical problem that treatment effeciency is low.

Description

Vibration shaping device for quantitative filling machine

Technical Field

The utility model relates to a food processing production facility technical field, concretely relates to vibration shaping device for quantitative filling machine.

Background

After the hotpot condiment is fried, in order to strictly control the oil-material ratio of each package of hotpot condiment, the fried hotpot condiment needs to be subjected to oil-material separation, the separated materials and oil are sequentially filled into a mold box (a square plastic box) through a quantitative filling machine, then the separated materials and oil are conveyed into a freezing warehouse for freezing, the frozen beef tallow hotpot condiment is solidified into blocks, and the blocks of hotpot condiment are manually poured out of the mold box and then packaged. However, after the separated materials are filled into the die box, when the separated oil is filled again, the materials in the die box are disturbed, so that the oil materials are mixed together again, the frozen hotpot condiment is in an oil material mixing state, and the whole hotpot condiment block is black brown, so that the product sense is influenced.

In order to improve the sensory quality of the hotpot condiment, manufacturers can manually layer the oil in the die box before the hotpot condiment enters the freezing warehouse for freezing. Specifically, the worker holds the pressing plate to stretch into the mold box, and presses the materials in the mold box downwards, so that the materials sink to the bottom of the mold box, and the oil is located above the materials, so that oil layering is realized. However, the artificial stratification of the oil of the hotpot condiment has the following problems: when mass production is carried out, the requirement of personnel is large, and the efficiency of manually layering the hotpot condiment is low, so that the labor cost is high.

In order to solve the problems, the utility model with the granted publication number of CN213908473U discloses a bed charge leveling device, which comprises a workbench, a leveling mechanism and a material guiding mechanism, wherein the leveling mechanism and the material guiding mechanism are arranged on the workbench; the material guiding mechanism comprises a support frame, a plurality of parallel material guiding plates are fixed on the support frame, a material guiding channel for the mold box to pass through is formed between the two material guiding plates, and the pressing plates are respectively positioned right above the material guiding channels. The hot pot seasoning automatic flattening device can automatically flatten hot pot seasoning in a plurality of die boxes through a plurality of pressing plates, so that the working efficiency is improved and the labor cost is reduced for manual flattening.

However, the above prior art has the following problems: the clamp plate stretches into in the die block and flattens the hot pot seasoning, and the butter can be attached to on the clamp plate, then the clamp plate is accomplished this and is flattened the processing back, get into next flattening before handling, and the butter that is attached to on the clamp plate can drip on two adjacent die blocks and workstation, leads to operational environment to be polluted, if not in time the clearance then be unfavorable for guaranteeing food safety, if once accomplish flatten the processing just clear up then can reduce overall efficiency to adnexed butter on the clamp plate.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it is anticipated that quantitative filling machine is with vibration shaping device to solve prior art and carry out the easy drippage everywhere of in-process oil that the oil layering was handled to the hot pot seasoning, lead to food safety to be endangered and the technical problem that the treatment effeciency is low.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

vibration shaping device for quantitative filling machine is including fixing subaerial support, is equipped with the baffle of a plurality of parallels on the support, is formed with the transfer passage that a plurality of confession mould boxes pass through between a plurality of baffles, its characterized in that: the mould box conveying device also comprises a material pushing mechanism, a lifting mechanism and a vibrating mechanism fixedly connected to the output end of the lifting mechanism, wherein the material pushing mechanism is used for pushing the mould box to move along the conveying channel; the output end of the vibration mechanism is fixedly connected with a sucker which is positioned right below the conveying channel.

The principle and the advantages of the scheme are as follows:

in practice, the mold box is placed in the transfer channel between two adjacent guide plates so that the edges of the mold box rest on the top ends of the guide plates. The mold box is pushed by the pushing mechanism to move in the conveying channel, so that the mold box is sequentially subjected to material filling and oil filling by the quantitative filling machine, and the mold box continues to move along the conveying channel under the pushing of the pushing mechanism after the filling until the mold box is pushed to the position right above the sucker by the pushing mechanism. At the moment, the lifting mechanism is started, the lifting mechanism drives the vibration mechanism to move upwards until the sucker fixedly connected at the output end of the vibration mechanism is in contact with the mold box and adsorbed at the bottom of the mold box, the lifting mechanism continues to drive the vibration mechanism to move upwards so that the edge of the mold box is separated from the contact with the top end of the guide plate, and the mold box is fixedly connected at the output end of the vibration mechanism through the sucker. Then the vibration mechanism is started, the die box is driven by the vibration mechanism to vibrate, and the materials and the oil in the die box are layered under the vibration effect, so that the materials are deposited at the bottom of the die box, and the oil floats on the upper layer of the materials, thereby realizing the shaping work of layering the oil and the materials of the hotpot condiment respectively. After shaping is completed, the lifting mechanism drives the vibration mechanism to descend, so that the edge of the mold box is supported at the top end of the guide plate again, and the mold box is pushed by the push rod to the conveying device and conveyed to the freezing chamber by the conveying device for freezing.

1. This scheme of adoption vibrates the mould box of having filled hot pot seasoning for the material deposit of hot pot seasoning in the mould box is in the lower floor, and oil floats on the upper strata, and then the finished product hot pot seasoning after freezing is in the oil layering state, and the bed of material of dark is in the lower floor, and red oil reservoir has promoted the sense organ of hot pot seasoning product on the upper strata effectively, is favorable to improving the sales volume of hot pot seasoning, thereby is favorable to increasing the income.

2. When the scheme is adopted to carry out oil material layering treatment on the hotpot condiment filled in the die box, all the structures cannot stretch into the die box to be directly contacted with the hotpot condiment, so that the oil in the hotpot condiment cannot be attached to the structure of the device and can drip around along with the movement of the structure, the cleanness of a working environment is favorably maintained, and the food sanitation and safety are guaranteed; moreover, the oil drip dirty working environment can not be stopped for cleaning, so that the scheme is favorable for improving the whole working efficiency.

3. This scheme fixed connection sucking disc on vibration mechanism's output, through sucking disc and the contact of mould box and fix the mould box on vibration mechanism's output, can guarantee that the mould box produces the vibration under vibration mechanism's drive to realize the oil layering of hot pot seasoning. Realize through the sucking disc that the mould box is fixed in the position of vibration in-process relative to vibration mechanism, simple structure, easy acquireing, overhaul easily, be favorable to controlling means cost.

4. This scheme sets up the sucking disc under transfer passage, then the mould box is by pushing equipment along transfer passage propelling movement to vibration plastic work position, can be through the promotion stroke of control pushing equipment, make the mould box be located the sucking disc directly over, thereby make the sucking disc in the bottom central point of mould box put with the contact of mould box and fix the mould box, the mould box is put at the bottom central point and is connected with the output of vibration mechanism promptly, can guarantee the position stability of mould box in the vibration process, the hot pot seasoning of avoiding filling in the mould box swings out from the mould box under the vibration effect, this scheme has not only avoided the waste of hot pot seasoning, and be favorable to further guaranteeing operational environment's clean and tidy health, provide the guarantee for the food sanitation safety of product.

5. This scheme sets up elevating system, lift the mould box through elevating system earlier from the baffle for mould box edge no longer with the contact of baffle top, rethread vibration mechanism vibrates the mould box, thereby realize the plastic of hot pot seasoning, can avoid vibration mechanism to carry out the in-process of vibration plastic to the mould box, the mould box takes place to collide with and influence the vibration frequency of mould box with the baffle, and then influences the oil layering effect of hot pot seasoning, this scheme is favorable to guaranteeing the finished product sense organ quality of hot pot seasoning.

Preferably, as an improvement, the sucking disc is a vacuum sucking disc, the vacuum sucking disc is communicated with an air pipe, and the other end of the air pipe is communicated with a vacuum generator.

By adopting the scheme, the vacuum sucker replaces a common sucker, when the vacuum sucker is driven by the lifting mechanism to move upwards to be contacted with the bottom of the mold box, the vacuum generator is started, negative pressure is generated in the vacuum sucker through the air pipe, so that the vacuum sucker firmly sucks the bottom of the mold box, and hotpot condiment in the mold box is prevented from spilling due to falling off from the vacuum sucker in the vibration shaping process of the mold box; after the vibration shaping work is finished, the vacuum generator is inflated into the vacuum sucker stably through the air pipe, so that negative pressure in the vacuum sucker is changed into zero air pressure or slightly positive air pressure, the vacuum sucker is separated from the bottom of the die box at the moment, and the die box can continuously move along the conveying channel under the action of the material pushing mechanism. This scheme adopts vacuum chuck, compares in ordinary sucking disc and can adsorb mould box bottom more firmly to make the mould box more stable for the position of vibration mechanism output, avoid the hot pot seasoning unrestrained and cause the waste in the vibration plastic in-process, and can also keep operational environment's cleanness. In addition, when the vacuum chuck removes the adsorption with the mould box, also quick, high-efficient, need not carry on spacingly and make the sucking disc drop from the mould box bottom through the exterior structure to the mould box, reduced the wearing and tearing of structure, be favorable to increase of service life.

Preferably, as an improvement, elevating system includes that vertical the fixing is at subaerial lift cylinder, and the quantity of lift cylinder is two at least, fixedly connected with connecting plate on the output shaft of lift cylinder, and the junction equipartition of lift cylinder and connecting plate is on the connecting plate.

This scheme of adoption adopts the lift cylinder as elevating system's power structure, can control the stroke of lift cylinder in a flexible way for lift cylinder drive sucking disc and mould box bottom contact and adsorb the mould box fixedly, guarantee elevating system with mould box jacking to anticipated height, provide sufficient space for subsequent vibration plastic work. Fixedly connected with connecting plate on the output shaft of lift cylinder then can install vibration mechanism on the connecting plate, and the connecting plate provides sufficient operating area for vibration mechanism's installation, improves the convenience of vibration mechanism installation. The quantity design of going up and down the cylinder is at least two, and the junction evenly distributed of going up and down cylinder and connecting plate on the connecting plate, when drive vibration mechanism rebound, several lift cylinders act on simultaneously, carry out even, synchronous lifting everywhere to the connecting plate, then no matter where vibration mechanism installs on the connecting plate, the stability that elevating system drive its rise can be guaranteed to the homoenergetic, and then guarantee the stability of follow-up vibration mechanism drive mould box vibration.

Preferably, as an improvement, the length of the connecting plate is matched with the distance between the two guide plates at the edge.

This scheme of adoption, with the length design of connecting plate for with the edge between two baffle apart from the phase-match, then can realize all the installation that correspond the vibration mechanism of station through a connecting plate, can guarantee that all vibration mechanisms are being driven by elevating system and are ascending, the high position uniformity when descending. In addition, all install the vibration mechanism of all corresponding stations on same connecting plate, then the lift cylinder can suitably reduce the quantity of lift cylinder on guaranteeing to be connected the basis of homogeneity with the connecting plate, compares and corresponds a elevating system in a transfer passage, designs elevating system under all transfer passages as an organic whole, can simplify the structure, installation in the convenience earlier stage and later maintenance.

Preferably, as an improvement, the vibration mechanism includes a vibration cylinder horizontally and fixedly connected to the connecting plate, and an output shaft of the vibration cylinder is fixedly connected with a mounting plate, and the mounting plate is slidably connected to the connecting plate.

This scheme of adoption adopts vibrating cylinder as the power structure of vibration mechanism, can adjust vibrating cylinder's operating duration and action frequency according to actual need to adjust mould box in a flexible way by the length of time and vibration frequency of vibration, make the hot pot seasoning in the mould box reach anticipated vibration plastic effect, guarantee that the oil of hot pot seasoning is layering completely, in order to improve the sense organ quality of hot pot seasoning. Fixedly connected with mounting panel on vibration cylinder's the output, then can install vacuum chuck and affiliated structure on the mounting panel, the mounting panel provides sufficient operating area for vacuum chuck and affiliated structure's installation, is favorable to improving the installation convenience of vacuum chuck and affiliated structure.

Preferably, as a modification, the length of the mounting plate is the same as the length of the connecting plate.

This scheme of adoption, the length design of mounting panel is for the same with the length of connecting plate, the length of mounting panel also with the distance phase-match between two blocks of baffle in edge promptly, then can realize all vacuum chuck that correspond the station and the installation of affiliated structure through a mounting panel, can guarantee that all mould boxes that correspond on the station carry out vibration plastic work with the same frequency under vibrating cylinder's drive, thereby guarantee that all chafing dish bed charge that correspond station department is shaped to the same outward appearance quality level, in order to improve the quality uniformity of same batch chafing dish bed charge product. In addition, all install all vacuum chuck and accessory structure on same mounting panel, then drive actuating cylinder and can suitably reduce the quantity that drives actuating cylinder on guaranteeing that drive power meets the demands, compare in a transfer passage and correspond a vibration mechanism, design formula structure as an organic whole with the actuating mechanism of all transfer passages below, can simplify the structure, convenient installation in earlier stage and later maintenance.

Preferably, as an improvement, a plurality of stand columns are arranged around the vacuum chuck, and the height of each stand column is matched with that of the vacuum chuck.

This scheme of adoption, set up a plurality of stands around vacuum chuck, and the height of stand and vacuum chuck's high phase-match, then vacuum chuck adsorbs the mould box bottom when fixed, other positions of mould box bottom contact with the top of stand, mould box bottom is fixed on vacuum chuck except the bearing, still the while supporting is on a plurality of stands, can improve the positional stability of mould box, avoid vibration plastic in-process mould box to take place to empty for vacuum chuck, thereby can avoid the waste of hot pot seasoning, and keep operational environment's clean.

Preferably, as an improvement, a plurality of the upright posts are uniformly distributed around the vacuum chuck.

This scheme of adoption, with a plurality of stand equipartitions around vacuum chuck, put in the central point of mould box bottom when vacuum chuck adsorbs fixed back with the mould box, a plurality of stands and the central point of contact department evenly distributed of mould box put around the central point of mould box, and the holding power that comes from the stand that the mould box received this moment is balanced, can further guarantee the positional stability of mould box in the vibration plastic process.

Preferably, as an improvement, pushing equipment includes two driving chains that set up in a plurality of baffle both sides, is connected with a plurality of push rods that are used for promoting the mould box between two driving chains, and the axis of push rod is perpendicular with direction of delivery.

This scheme of adoption, all set up the driving chain in the both sides of a plurality of baffles, and connect a plurality of push rods that are used for promoting the mould box between two driving chains, remove through driving chain drive push rod, thereby make the push rod promote the mould box and remove along transfer passage, the mould box is being pushed away the in-process that removes along transfer passage by the push rod, accomplish quantitative filling hot pot seasoning in proper order, vibration plastic work, this scheme simple structure, and can realize the continuous operation of hot pot seasoning quantitative filling and vibration plastic, be favorable to improving the production efficiency of hot pot seasoning. The axis of the push rod is designed to be perpendicular to the conveying direction, all the mold boxes are located on the same straight line perpendicular to the conveying direction when the push rod pushes the mold boxes to move, the quantitative filling machine can conveniently and accurately fill each mold box, and each mold box is guaranteed to be pushed by the push rod to move to the position right facing the sucker, so that the follow-up vibration shaping work is guaranteed to be accurately carried out.

Preferably, as an improvement, the push rod is provided with a guide groove at a position corresponding to the guide plate, and the guide plate is inserted into the guide groove and is connected with the push rod in a sliding manner.

This scheme of adoption, the guide slot is seted up in the position that the push rod corresponds the baffle to insert the baffle and realize the sliding connection of push rod and baffle in the guide slot, then the push rod contacts with the mould box and when promoting the mould box and remove along transfer passage, the push rod is that the part imbeds the baffle, and this scheme can reduce the height of push rod, carries out the contact of bigger area with guaranteeing push rod and mould box, thereby realizes that the push rod promotes the function that the mould box removed along transfer passage in order.

Drawings

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

Fig. 2 is a schematic top view of embodiment 1 of the present invention.

Fig. 3 is a schematic front view of embodiment 1 of the present invention.

Fig. 4 is a schematic view of the overall structure of embodiment 2 of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a support 1, a guide plate 2, a conveying channel 3, a lifting cylinder 4, a connecting plate 5, a vibrating cylinder 6, a mounting plate 7, a vacuum chuck 8, an upright post 9, a transmission chain 10, a push rod 11 and a guide groove 12.

Example 1

As shown in fig. 1 to 3, the vibration shaping device for the quantitative filling machine comprises a support 1 fixedly connected to the ground through bolts, a plurality of guide plates 2 parallel to each other are fixedly connected to the support 1 through bolts, and a plurality of conveying channels 3 for passing through the mold box are formed between the guide plates 2. In the present embodiment, the number of the guide plates 2 is five, and correspondingly, the number of the conveying channels 3 is four, and those skilled in the art can design the guide plates 2 into other numbers according to actual production needs.

The vibration shaping device for the quantitative filling machine further comprises a material pushing mechanism, a lifting mechanism and a vibration mechanism fixedly connected to the output end of the lifting mechanism, wherein the material pushing mechanism is used for pushing the die box to move along the conveying channel 3.

The material pushing mechanism comprises two chain transmission mechanisms, the two chain transmission mechanisms are respectively arranged on the outer sides of the two guide plates 2 at the edge along the conveying direction, and the chain transmission mechanisms are fixedly connected to the support 1 through bolts. The chain transmission mechanism comprises two chain wheels, the two chain wheels are respectively positioned at the feeding end and the discharging end of the guide plate 2 and are connected through a transmission chain 10, the transmission chain 10 positioned on the upper side is higher than the top end of the guide plate 2, and the transmission chain 10 positioned on the lower side is lower than the bottom end of the guide plate 2. The chain wheels at the corresponding positions of the two chain transmission mechanisms are coaxially and fixedly connected into a whole through a rotating shaft, and the rotating shaft is fixedly connected with an output shaft of the motor. A plurality of push rods 11 are fixedly connected between the two transmission chains 10 through bolts, the distance between every two adjacent push rods 11 is larger than the length of the mold box, and the distance between every two adjacent push rods 11 is equal.

The lifting mechanism comprises lifting cylinders 4 which are fixedly connected to the ground through bolts in a vertical mode, the number of the lifting cylinders 4 is at least two, connecting plates 5 are fixedly connected to the output ends of the lifting cylinders 4 through the bolts, and the connecting positions of the lifting cylinders 4 and the connecting plates 5 are evenly distributed on the connecting plates 5. In this embodiment, the quantity of lift cylinder is two, use the visual angle of figure 3 as the benchmark, two lift cylinders 4 set up respectively under leftmost delivery channel 3 and rightmost delivery channel 3, the length of connecting plate 5 and the distance phase-match between two blocks of baffle 2 on leftmost and rightmost side, and in this embodiment, connecting plate 5 adopts the I-shaped board, both convenient and lift cylinder 4's output shaft fixed connection, can alleviate the weight of connecting plate 5 again in order to reduce lift cylinder 4's dead load, be favorable to prolonging lift cylinder 4's life.

The vibrating mechanism comprises a vibrating cylinder 6 horizontally and fixedly connected to the top end of the connecting plate 5 through bolts, and an output shaft of the vibrating cylinder 6 is fixedly connected with a mounting plate 7 through bolts. In this embodiment, vibrating cylinder 6's quantity is three, and three vibrating cylinder 6 one-to-one sets up under three baffle 2 that are located the intermediate position, and mounting panel 7 level sets up, and the length of mounting panel 7 is unanimous with the length of connecting plate 5, and the bottom of mounting panel 7 and vibrating cylinder 6's top sliding connection, and is concrete, and mounting panel 7 is placed at vibrating cylinder 6 top, through bolt fixedly connected with fixed block on vibrating cylinder 6's the output shaft, the fixed block passes through bolt fixed connection again on mounting panel 7.

Bolt fixedly connected with vacuum chuck 8 is passed through at the top of mounting panel 7, and vacuum chuck 8 is located transfer passage 3 under, and open the position that corresponds vacuum chuck 8 on mounting panel 7 has the through-hole, and 8 bottom intercommunications of vacuum chuck have the trachea, and the trachea is connected with vacuum generator for the through-hole that passes mounting panel 7 with the other end of 8 links of vacuum chuck. Be equipped with a plurality of stands 9 around vacuum chuck 8, the top height of stand 9 and vacuum chuck 8's top height phase-match, when vacuum chuck 8 and mould box bottom contact and with the mould box absorption fixed, the top of stand 9 and the contact of mould box bottom are to its supporting role of mould box. In this embodiment, the number of the upright posts 9 is four, and the four upright posts 9 are uniformly arranged around the vacuum chuck 8.

The specific implementation process is as follows:

the empty mold box is placed on the two adjacent guide plates 2 at the feeding end through manpower or machinery, the edges of the left side and the right side of the mold box are supported at the top ends of the two adjacent guide plates 2 at the moment, and the mold box is placed in the four conveying channels 3. The motor drives the transmission chain 10 to move, so that the transmission chain 10 drives the push rod 11 to move rightwards (taking the visual angle of fig. 2 as a reference), the push rod 11 can push the mold box to move rightwards, the mold box is sequentially subjected to quantitative filling of materials and quantitative filling, and after the quantitative filling of the hotpot condiment is completed, the mold box continues to move rightwards under the pushing of the push rod 11 until the mold box is positioned right above the vacuum chuck 8.

The lifting cylinder 4 is started to drive the connecting plate 5 to move upwards, so that the vacuum chuck 8 is driven to move upwards until the vacuum chuck 8 is contacted with the center of the bottom of the mold box. After vacuum chuck 8 contacted bottom the mould box, vacuum generator started, produced the negative pressure through the trachea in vacuum chuck 8 to make vacuum chuck 8 inhale the mould box bottom firmly, the top of stand 9 and the contact of mould box bottom this moment and support the mould box above that, the mould box is adsorbed fixedly by vacuum chuck 8. The lifting cylinder 4 continues to drive the connecting plate 5 to move upwards, so that the mold box is driven to move upwards until the contact relation between the edge of the mold box and the top end of the guide plate 2 is released.

Vibration cylinder 6 starts, and drive mounting panel 7 back-and-forth movement (use the visual angle of fig. 3 as the benchmark) to drive the mould box vibration from beginning to end, the oil and the material of splendid attire in the mould box mutual separation under the vibration effect, the material deposit forms the bed of material in the bottom of mould box, and oil floats and forms the oil reservoir on the bed of material, accomplishes the vibration plastic of chafing dish bed charge from this. After vibration plastic work was accomplished, vibration cylinder 6 closed, and lift cylinder 4 drive connecting plate 5 downstream to drive mould box downstream, until mould box edge contact with 2 tops of baffle again, vacuum generator steadily must aerify into vacuum chuck 8 through the trachea this moment, makes in the vacuum chuck 8 become zero atmospheric pressure or slightly positive atmospheric pressure by the negative pressure, makes vacuum chuck 8 break away from the mould box bottom. The lifting mechanism continues to drive the connecting plate 5 to move downwards until the connecting plate 5 returns to the original position.

The motor continues to drive the transmission chain 10 to move, so that the transmission chain 10 continues to drive the push rod 11 to move rightwards (taking the visual angle of fig. 2 as a reference), the push rod 11 can push the die box which is subjected to vibration shaping to move rightwards, and the die box which is subjected to vibration shaping enters a subsequent conveying device and is conveyed to a freezing warehouse to be frozen so as to perform a subsequent packaging process.

Example 2

As shown in fig. 4, the vibration shaping device for the quantitative filling machine is different from the embodiment 1 in that: the push rod 11 is provided with a guide groove 12 corresponding to the guide plate 2, and when the push rod 11 is located at the top end of the guide plate 2, the guide plate 2 is inserted into the guide groove 12, so that the push rod 11 is slidably connected with the guide groove 12. When the push rod 11 contacts with the mold box and pushes the mold box to move along the conveying channel 3, the push rod 11 is partially embedded into the guide plate 2, so that the height of the push rod 11 can be reduced to ensure that the push rod 11 is in contact with the mold box in a larger area, thereby ensuring that the push rod 11 can effectively push the mold box to move along the conveying channel 3, and avoiding the situation that the push rod 11 moves and the mold box stays in place due to the fact that the contact area of the push rod 11 and the mold box is smaller.

Example 3

The vibration shaping device for the quantitative filling machine is different from the vibration shaping device in the embodiment 2 in that: the top end of the guide plate 2 is fixedly bonded with a rubber pad. On one hand, the rubber pads can assist the guide plate 2 to support the die box, so that the abrasion of the die box to the top end of the guide plate 2 in the moving process along the conveying channel 3 is reduced, and the service life of the guide plate 2 is prolonged; and the rubber pad has certain elasticity in comparison with baffle 2, the mould box of having filled the hot pot seasoning has certain weight, and the mould box supporting can extrude the rubber pad sunkenly on the rubber pad this moment, and the mould box joint can play certain limiting displacement to the mould box in the sunken of rubber pad, avoids the mould box to be promoted certain distance back by push rod 11 because inertia and skew the anticipated position to guarantee that the mould box moves to the position just to vacuum chuck 8 under the promotion of push rod 11, be favorable to guaranteeing the accuracy of follow-up vibration plastic process and go on. On the other hand, set up the rubber pad at baffle 2 top for push rod 11 and rubber pad contact and not direct and baffle 2 contact can reduce the frictional force that the push rod 11 received in the removal process, can also avoid push rod 11 excessive wear when reducing the energy consumption, in order to prolong its life.

The above description is only an example of the present invention, and the detailed technical solutions and/or characteristics known in the solutions are not described too much here. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. Vibration shaping device for quantitative filling machine is including fixing subaerial support, is equipped with the baffle of a plurality of parallels on the support, is formed with the transfer passage that a plurality of confession mould boxes pass through between a plurality of baffles, its characterized in that: the mould box conveying device also comprises a material pushing mechanism, a lifting mechanism and a vibrating mechanism fixedly connected to the output end of the lifting mechanism, wherein the material pushing mechanism is used for pushing the mould box to move along the conveying channel; the output end of the vibration mechanism is fixedly connected with a sucker which is positioned right below the conveying channel.

2. The vibration shaping device for a quantitative filling machine according to claim 1, wherein: the sucking disc is a vacuum sucking disc, the vacuum sucking disc is communicated with an air pipe, and the other end of the air pipe is communicated with a vacuum generator.

3. The vibration shaping device for a quantitative filling machine according to claim 2, wherein: the lifting mechanism comprises at least two lifting cylinders vertically fixed on the ground, a connecting plate is fixedly connected to an output shaft of each lifting cylinder, and the connecting parts of the lifting cylinders and the connecting plate are uniformly distributed on the connecting plate.

4. The vibration shaping device for a quantitative filling machine according to claim 3, characterized in that: the length of the connecting plate is matched with the distance between the two guide plates at the edge.

5. The vibration shaping device for a quantitative filling machine according to claim 4, wherein: the vibrating mechanism comprises a vibrating cylinder which is horizontally and fixedly connected to the connecting plate, an output shaft of the vibrating cylinder is fixedly connected with a mounting plate, and the mounting plate is connected with the connecting plate in a sliding mode.

6. The vibration shaping device for a quantitative filling machine according to claim 5, wherein: the length of the mounting plate is the same as that of the connecting plate.

7. The vibration shaping device for the quantitative filling machine according to claim 6, wherein: a plurality of stand columns are arranged around the vacuum chuck, and the height of each stand column is matched with that of the vacuum chuck.

8. The vibration shaping device for the quantitative filling machine according to claim 7, wherein: the upright posts are uniformly distributed around the vacuum chuck.

9. The vibration shaping device for a quantitative filling machine according to any one of claims 1 to 8, wherein: the pushing mechanism comprises two transmission chains arranged on two sides of the guide plates, a plurality of push rods used for pushing the die box are connected between the two transmission chains, and the axis of each push rod is perpendicular to the conveying direction.

10. The vibration shaping device for a quantitative filling machine according to claim 9, wherein: the guide plate is inserted into the guide groove and is connected with the push rod in a sliding mode.

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