CN210654846U - Food processing packing conveying equipment - Google Patents

Abstract

The utility model belongs to the technical field of packaging and conveying, in particular to a food processing, packaging and conveying device, which comprises a third push plate, a third deck plate, a third chain transmission mechanism and a hexagonal wheel, wherein one end of the third push plate for pushing an article to move is hinged with each other through a connecting rod, so that the third push plate is prevented from being damaged due to overlarge stress of one of the third push plates, and the normal conveying of the article is prevented from being influenced; and if the article is put on the deck plate to incline, after the corresponding third push plate receives the torsional force, the third push plate can transmit the torsional force to all the third push plates through the connecting rod arranged at one end of the third push plate, and the torsional force is born through all the third push plates, so that the situation that the support lugs of the mounting push plate and the parts connected with the corresponding chain plates are damaged due to the fact that the corresponding third push plates bear the torsional force of the articles to the third push plates for a long time, damage is caused, and the normal use of the transmission equipment is influenced is prevented.

Description

Food processing packing conveying equipment

Technical Field

The utility model belongs to the technical field of the packing is carried, especially, relate to a food processing packing conveying equipment.

Background

The material conveying device is a device which coordinately and gradually conveys the packaging materials, the packaging containers, the auxiliary materials and the like to preset positions according to the packaging process requirements and the packaging work rhythm, and determines the production efficiency and the automation degree of the whole equipment.

The chain belt type conveying device mainly comprises a frame, a chain wheel, a conveying chain belt, a push head, a guide rail, a table board and other members, wherein the push head is hinged with a chain sheet, and is oriented by the guide rail in the pushing process, and when the push head moves to the terminal point, articles are separated from the restraint and continue to rotate around a pin shaft on the chain and slide down; for wider articles, a double-chain belt is required for transmission to ensure that the articles are not deviated from a central line in transmission, but the use cost is increased, if a single-chain belt long push plate is used for transmission, when the articles are placed, if the articles are placed on a table board to be inclined, the torque of the push plate on the articles is increased in the pushing process, and the connecting part of the push plate and the chain is easily damaged; therefore, it is necessary to design a single-chain belt type conveying device with a push plate which is not easy to damage. The utility model relates to a food processing packing conveying equipment solves above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

In order to solve the above defects in the prior art, the utility model discloses a food processing packaging conveying equipment, it adopts following technical scheme to realize.

A food processing packaging conveying equipment which characterized in that: the third chain transmission mechanism is arranged on the third platform panel, and the four corners of the lower side of the third platform panel are respectively provided with a first support rod which plays a role in supporting the third platform panel; two ends of the third table panel are symmetrically provided with two hexagonal wheels, and each hexagonal wheel is supported by two second supporting rods respectively; the third chain transmission mechanism is wound on the two hexagonal wheels, and a plurality of third push plates are uniformly arranged on the third chain transmission mechanism; the effect of design hexagon wheel has guaranteed that the chain board of component annular chain can not be because of twine it be columniform gyro wheel and make the chain board take place to warp at the pivoted in-process to the annular chain, and the third push pedal on the annular chain is installed in the influence.

The third chain transmission mechanism comprises chain plates and support lugs, wherein a plurality of chain plates are alternately connected with each other in a hinged mode to form a closed annular chain; the formed annular chain is matched with the two hexagonal wheels; a plurality of third push plates are correspondingly arranged on the support lugs in the annular chain one by one, and each support lug is in swing fit with the corresponding third push plate; the reason that each support lug is in swing fit with the corresponding third push plate is to prevent the third push plate arranged on the chain plate from interfering with the hexagonal wheel in the rotating process of the chain plate; the chain plate is matched with a third chain groove formed in a third table top plate, and the third chain groove plays a role in guiding an annular chain formed by the chain plate; the upper side of the formed annular chain is nested in a third chain groove formed on a third table panel.

Two connecting pins are symmetrically arranged at two ends of each third push plate, and the axes of the connecting pins are collinear with the axes of the corresponding support lugs, so that the third push plates are prevented from interfering with the chain plate when passing through the hexagonal wheel; the connecting pins arranged on the two adjacent third push plates are respectively connected through a connecting rod, in the utility model, all the third push plates are connected together in a hinged mode through the connecting rods, after one of the third push plates receives torsional force, the third push plate transmits the torsion force to all the third push plates through the connecting rod installed at one end thereof, all the third push plates bear the twisting force to prevent the third push plates from damaging the connecting parts of the support lugs of the push plates and the corresponding chain plates and influencing the normal use of the transmission equipment due to the damage of the third push plates which bear the twisting force of the articles to the third push plates for a long time, meanwhile, all push plates arranged on the annular chain can be more stable through the connecting rods, damage cannot easily occur, and even objects with wide transportation cannot easily be damaged.

The length of the chain plate is matched with six inclined planes on the outer side of the hexagonal wheel, and each chain plate corresponds to one inclined plane.

The utility model discloses a rotation of hexagonal wheel is through outside motor drive.

As a further improvement of the technology, a shaft hole is formed in the supporting plate, two ends of the supporting plate are installed on two first supporting rods which are positioned on the rear side of the four first supporting rods at the two ends, the speed reducing motor is installed on the supporting plate, one end of the rotating shaft is installed on an output shaft of the speed reducing motor, the other end of the rotating shaft penetrates through the shaft hole in the supporting plate and is positioned on the other side of the supporting plate, the limiting wheel is installed on the rotating shaft, a plurality of groups of clamping plates are evenly installed on the limiting wheel in the circumferential direction, two clamping plates in each group form a V-shaped plate, and the V-shaped plate is matched with a push; the utility model discloses in have two sets of cardboards to installing two third push pedal cooperations on the chain board at the same time, these two sets of cardboards will install two third push pedal blocks on the chain board simultaneously and die, have further injectd the swing of installing all third push pedals on the chain board for the third push pedal becomes more stable at the removal in-process.

As a further improvement of the technology, the upper end of each support lug is fixedly provided with a mounting pin, the third push plate is provided with a mounting round hole, and the third push plate is arranged on the upper side of the corresponding support lug in a rotating fit manner through the mounting round hole on the third push plate and the corresponding mounting pin.

As the further improvement of the technology, a supporting shaft is arranged between the two second supporting rods positioned on the same side, and the two hexagonal wheels are respectively arranged on the two corresponding supporting shafts.

As a further improvement of the technology, the upper side of each mounting pin is provided with an upper tightening ring which plays a limiting role on the third push plate, meanwhile, the third push plate is convenient to maintain and replace, and when the third push plate needs to be maintained and replaced, the upper tightening ring can be directly taken down.

As a further improvement of the technology, each mounting pin is provided with an external thread on the outer circular surface of the upper end, an internal thread is arranged on the inner circular surface of the upper tightening ring, and the tightening ring is mounted on the corresponding mounting pin through the thread matching of the internal thread and the external thread on the corresponding mounting pin.

As a further improvement of the technology, the speed reducing motor is supported and installed on the supporting plate through the motor.

As a further improvement of the present technique, each of the above-mentioned third push plates is mounted on a mounting pin by means of a bearing.

As a further improvement of the technology, the rotating shaft is connected with an output shaft of the speed reducing motor through a coupler.

As a further improvement of the present technology, the lower ends of the mounting pins are fixedly mounted on the corresponding support lugs by welding.

For traditional packing transport technology, the utility model relates to a beneficial effect as follows:

1. for the second chain belt type conveying device, the device consists of a second push plate, a second table top plate, a second chain transmission mechanism and a second chain groove, wherein the second table top plate is provided with the second chain groove, the second chain transmission mechanism is arranged on the second table top plate, and the second chain transmission mechanism is uniformly provided with a plurality of second push plates; the chain at the upper side of the second chain transmission mechanism is nested in a second chain groove on the second table panel; the chain in the second chain transmission mechanism is guided by the second chain groove, and in the using process, the object is placed on the upper side of the second table top plate, and the second chain transmission mechanism can drive a second push plate arranged on the second chain transmission mechanism to push the object on the second table top plate to be conveyed; however, if the conveying device is used for some wider articles, the single-chain belt is difficult to ensure that the articles are not deviated from the central line in the conveying process, particularly when the articles are placed on the table board obliquely, the torque of the second push plate on the articles is increased in the pushing process, and the connecting part of the second push plate and the chain is easily damaged; the conveying of the articles is influenced, the third push plates for pushing the articles to move are hinged with each other through the connecting rod, so that the phenomenon that one of the third push plates is damaged due to overlarge stress on the third push plate to influence the normal conveying of the articles is prevented; and if the article is put the slope on the deck plate, after the third push pedal that corresponds received the torsional force, this third push pedal will be through installing the connecting rod of its one end with this torsional force transmission to all third push pedals on, bear this torsional force through all third push pedals, prevent that the third push pedal that corresponds from leading to the journal stirrup of installation push pedal and the position that corresponds chain plate to be connected to be impaired because of bearing article to its torsional force for a long time, cause the destruction, influence this transmission equipment's normal use, can make simultaneously all push pedals of installing on the endless chain become more stable through the connecting rod, can not take place the destruction easily, even the article of transportation broad also can not take place the destruction easily.

2. For a first chain belt type conveying device, the device consists of a first push plate, a first table board, first chain transmission mechanisms and first chain grooves, wherein the first table board is provided with two first chain grooves, the two first chain transmission mechanisms are symmetrically arranged on the first table board, and the two first chain transmission mechanisms are uniformly provided with a plurality of first push plates; the upper chains of the two first chain transmission mechanisms are nested in the two first chain grooves on the first table board in a one-to-one correspondence manner; through two first chain grooves to two chains in the first chain transmission device play the guide effect, this kind of conveyor, although solved the problem that first push pedal easily destroys in the removal degree, the device uses two first chain transmission device, and the cost is higher, and the utility model discloses a conveying equipment can solve the problem that the third push pedal destroys through a third chain transmission device, has practiced thrift the cost.

3. The limit wheel limits the oscillation of all third push plates mounted on the chaining plate so that the third push plates become more stable during movement.

Drawings

Fig. 1 is an external view of a first chain belt conveyor.

Fig. 2 is a schematic diagram of a first mesa structure.

Fig. 3 is a schematic view of the first chain transfer mechanism distribution.

Fig. 4 is an external view of the second chain belt conveyor.

Fig. 5 is a schematic diagram of a second mesa structure.

Fig. 6 is a schematic structural view of the second chain transmission mechanism.

Fig. 7 is an external view of the entire part.

Fig. 8 is a schematic view of the overall component distribution.

Fig. 9 is a schematic view of a limiting wheel distribution.

Fig. 10 is a schematic view of a restrictor wheel installation.

Fig. 11 is a schematic view of the mounting of the support plate.

Fig. 12 is a schematic view of the gear motor installation.

Fig. 13 is a schematic view of the third chain transfer mechanism installation.

Figure 14 is a hex wheel installation schematic.

Fig. 15 is a schematic structural view of the third chain transmission mechanism.

Figure 16 is a third push plate installation schematic.

Fig. 17 is a schematic view of the connecting rod installation.

Figure 18 is a schematic view of a third pusher construction.

FIG. 19 is a schematic view of a chaining plate configuration.

Fig. 20 is a mounting pin installation schematic.

Number designation in the figures: 1. a first deck plate; 2. a first chain belt conveyor; 3. a first push plate; 4. a first chain transmission mechanism; 5. a first chain groove; 6. a second chain belt conveyor; 7. a second push plate; 8. a second deck plate; 9. a second chain transmission mechanism; 10. a second chain groove; 11. a third push plate; 12. a third deck plate; 13. a third chain transmission mechanism; 14. a hexagonal wheel; 15. a limiting wheel; 16. supporting a motor; 17. a reduction motor; 18. a support plate; 19. a pin shaft; 20. a shaft hole; 21. a first support bar; 22. a third chain groove; 23. clamping a plate; 24. a rotating shaft; 25. a second support bar; 26. a support shaft; 27. a connecting rod; 28. tightening the ring; 29. supporting a lug; 30. mounting a round hole; 31. a connecting pin; 32. a chain plate; 33. and (6) installing a pin.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples or figures are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the present invention, the width of the chain in the first chain transmission mechanism 4 in fig. 1 and fig. 3 can be set according to actual conditions, and the ratio in the drawing is only for observing the view conveniently, the width of the chain in the second chain transmission mechanism 9 in fig. 4 and fig. 6 can be set according to actual conditions, and the ratio in the drawing is only for observing the view conveniently, and the width of the chain plate in the third chain transmission mechanism in fig. 7, fig. 8, fig. 10, fig. 13, fig. 14, fig. 16, fig. 17 and fig. 19 can be set according to actual conditions, and the ratio in the drawing is only for observing the view conveniently.

As shown in fig. 7 and 8, the third push plate 11, the third platform 12, the third chain transmission mechanism 13, and the hexagon wheel 14 are included, wherein as shown in fig. 11, a third chain slot 22 is formed on the third platform 12, a first support rod 21 is respectively installed at four corners of the lower side of the third platform 12, and the four first support rods 21 support the third platform 12; as shown in fig. 9 and 13, two hexagonal wheels 14 are symmetrically installed at both ends of the third platform board 12, and each hexagonal wheel 14 is supported by two second support rods 25 respectively; as shown in fig. 10, the third chain transmission mechanism 13 is wound around two hexagonal wheels 14, and a plurality of third push plates 11 are uniformly mounted on the third chain transmission mechanism 13; the hexagonal wheel 14 is designed to ensure that the chain plates 32 constituting the endless chain are not deformed by the cylindrical roller wound around the chain plates 32 during the rotation of the endless chain, and the third push plate 11 mounted on the endless chain is not affected.

As shown in fig. 15, the third chain transmission mechanism 13 comprises a plurality of chaining plates 32 and lugs 29, wherein, as shown in fig. 19, the plurality of chaining plates 32 are alternately connected with each other in a hinged manner at the head to form a closed loop chain; the formed annular chain is matched with the two hexagonal wheels 14; as shown in fig. 19 and 20, a support lug 29 is respectively mounted on the pin shaft 19 connected between two adjacent chain plates 32 in the formed endless chain, as shown in fig. 16 and 17, a plurality of third push plates 11 are correspondingly mounted on the support lugs 29 in the endless chain one by one, and each support lug 29 is in swing fit with the corresponding third push plate 11; the reason for designing each support lug 29 to be in swing fit with the corresponding third push plate 11 is to prevent the third push plate 11 mounted on the chaining plate 32 from interfering with the hexagonal wheel 14 during the rotation of the chaining plate 32; the chaining plate 32 is matched with a third chaining groove 22 formed on the third table top plate 12, and the third chaining groove 22 plays a role in guiding an annular chain formed by the chaining plate 32; the upper side of the formed endless chain is nested in a third chain groove 22 formed on the third deck plate 12.

As shown in fig. 19, one end of all the third push plates 11 is provided with a connecting pin 31, and the axis of the connecting pin 31 is collinear with the axis of the corresponding lug 29, so that the third push plates 11 are prevented from interfering with the chaining plate 32 when passing through the hexagonal wheel 14; as shown in fig. 16 and 17, the connecting pins 31 installed on two adjacent third push plates 11 are respectively connected by a connecting rod 27, in the present invention, all the third push plates 11 are connected together in a hinged manner by the connecting rod 27, after one of the third push plates 11 receives a torsional force, the third push plate 11 transmits the torsion force to all the third push plates 11 through the connecting rod 27 installed at one end thereof, the torsion force is born by all the third push plates 11, the damage of the connecting part of the support lug 29 of the mounting push plate and the corresponding chain plate 32 caused by the fact that the corresponding third push plate 11 bears the torsion force of the article to the third push plate for a long time is prevented, the damage is prevented, the normal use of the transmission equipment is influenced, meanwhile, all push plates arranged on the annular chain can be more stable and cannot be easily damaged through the connecting rods 27, and even wide objects can be transported without being easily damaged.

As shown in fig. 9, the chaining plates 32 are of a length to mate with six ramps on the outside of the hex wheel 14, one ramp for each chaining plate 32.

The utility model discloses a rotation of hexagonal wheel 14 is through outside motor drive.

As shown in fig. 11, the supporting plate 18 is provided with a shaft hole 20, two ends of the supporting plate 18 are mounted on two first supporting rods 21 located at the rear side among the four first supporting rods 21 at the two ends, as shown in fig. 10, the reducing motor 17 is mounted on the supporting plate 18, as shown in fig. 12, one end of a rotating shaft 24 is mounted on an output shaft of the reducing motor 17, as shown in fig. 10, the other end of the rotating shaft 24 passes through the shaft hole 20 on the supporting plate 18 and is located at the other side of the supporting plate 18, as shown in fig. 12, the limiting wheel is mounted on the rotating shaft, a plurality of sets of clamping plates 23 are uniformly mounted on the limiting wheel 15 in the circumferential direction, two clamping plates 23 in each set form a V-shaped plate, and the V-shaped; the utility model discloses in have two sets of cardboards 23 to installing two third push pedal 11 cooperations on chain board 32 at the same time, these two sets of cardboards 23 will install two third push pedal 11 blocks on chain board 32 simultaneously and die, have further injectd the swing of installing all third push pedal 11 on chain board 32 for third push pedal 11 becomes more stable at the removal in-process.

As shown in fig. 20, a mounting pin 33 is fixedly mounted at the upper end of each of the support lugs 29, as shown in fig. 18, a mounting circular hole 30 is formed in each of the third push plates 11, as shown in fig. 17, and the third push plate 11 is mounted on the upper side of the corresponding support lug 29 through the mounting circular hole 30 in the third push plate and the corresponding mounting pin 33 in a rotating fit manner.

As shown in fig. 14, a support shaft 26 is mounted between the two second support rods 25 located on the same side, and the two hexagonal wheels 14 are respectively mounted on two corresponding support shafts 26.

As shown in fig. 16 and 17, an upper tightening ring 28 is mounted on the upper side of each mounting pin 33, which limits the third pushing plate 11 and facilitates the maintenance and replacement of the third pushing plate 11, and when the third pushing plate 11 needs to be maintained and replaced, the upper tightening ring 28 is directly removed.

Each of the above-mentioned mounting pins 33 has an external thread on an outer circumferential surface of an upper end thereof, and the tightening ring 28 has an internal thread on an inner circumferential surface thereof, and the tightening ring 28 is mounted on the corresponding mounting pin 33 by the threaded engagement of the internal thread with the external thread on the corresponding mounting pin 33.

The reduction motor 17 is mounted on a support plate 18 via a motor support 16.

Each of the above-described third push plates 11 is bearing-mounted on the mounting pin 33.

The rotating shaft 24 is connected with an output shaft of the speed reducing motor 17 through a coupler.

The lower ends of the mounting pins 33 are fixedly mounted to the corresponding lugs 29 by welding.

The specific working process is as follows: when the conveying equipment designed by the utility model is used, the two hexagonal wheels 14 are controlled to rotate, the two hexagonal wheels 14 rotate to drive the closed annular chain consisting of the chain plates 32 to rotate, the annular chain rotates to drive the third push plate 11 arranged on the annular chain to rotate, when an object is placed on the third table board 12, when the third push plate 11 arranged on the annular chain is contacted with the object placed on the third table board 12 in the moving process, the third push plate 11 can push the object to move, when the third push plate 11 moves to the terminal point, the object is separated, and the third push plate 11 is driven by the annular chain to move continuously; if the object is placed on the third platform panel 12 and is inclined, in the process that the corresponding third push plate 11 pushes the object to move, the object can apply a torsional force to the corresponding third push plate 11, the corresponding third push plate 11 transmits the torsional force to other third push plates 11 through the connecting rod 27 at one end, and the torsional force is borne by the other third push plates 11 together, so that the situation that the connecting part of the support lug 29 of the mounting push plate and the corresponding chain plate 32 is damaged and damaged due to the fact that the corresponding third push plate 11 bears the torsional force of the object to the third push plate for a long time is prevented, and the normal use of the transmission equipment is influenced.

In summary, the following steps: the utility model relates to a conveying equipment, as shown in fig. 4, for second chain belt conveyor 6, the device is composed of second push pedal 7, second deck plate 8, second chain transmission mechanism 9, second chain groove 10, as shown in fig. 5, second deck plate 8 is provided with second chain groove 10, as shown in fig. 4, 6, second chain transmission mechanism 9 is installed on second deck plate 8, and second chain transmission mechanism 9 is evenly provided with a plurality of second push pedals 7; the upper chain of the second chain transmission mechanism 9 is nested in a second chain groove 10 on the second table board 8; the chains in the second chain transmission mechanism 9 are guided by the second chain grooves 10, and in the using process, the objects are placed on the upper side of the second table top plate 8, and the second chain transmission mechanism 9 can drive the second push plate 7 arranged on the second chain transmission mechanism to push the objects on the second table top plate 8 to be conveyed; however, if the conveying device is used for some wider articles, the single-chain belt is difficult to ensure that the articles are not deviated from the central line in the conveying process, particularly when the articles are placed on the table board obliquely, the torque of the second push plate 7 applied to the articles in the pushing process is increased, and the connecting part of the second push plate 7 and the chain is easily damaged; the conveying of the objects is influenced, the third push plates 11 pushing the objects to move are hinged with each other through the connecting rod 27, so that the phenomenon that the third push plates 11 are damaged due to overlarge stress of one of the third push plates 11 to influence the normal conveying of the objects is prevented; moreover, if an object is placed on the table top board obliquely, after the corresponding third push plate 11 receives a torsional force, the third push plate 11 transmits the torsional force to all the third push plates 11 through the connecting rod 27 arranged at one end of the third push plate, and the torsional force is borne by all the third push plates 11, so that the situation that the connecting part of the support lug 29 of the installation push plate and the corresponding chain plate 32 is damaged and damaged due to the fact that the corresponding third push plate 11 bears the torsional force of the object on the third push plate for a long time, and the normal use of the transmission equipment is influenced is prevented, meanwhile, all the push plates arranged on the annular chain can be more stable through the connecting rod 27, the damage cannot be easily caused, and the damage cannot be easily caused even if the object which is wider is transported; as shown in fig. 1, for the first chain belt type conveying device 2, the device is composed of a first push plate 3, a first table board 1, a first chain transmission mechanism 4 and a first chain groove 5, as shown in fig. 2, two first chain grooves 5 are formed on the first table board 1, as shown in fig. 1 and 3, the two first chain transmission mechanisms 4 are symmetrically installed on the first table board 1, and a plurality of first push plates 3 are evenly installed on the two first chain transmission mechanisms 4; the upper chains of the two first chain transmission mechanisms 4 are nested in the two first chain grooves 5 of the first table board 1 in a one-to-one correspondence manner; through two first chain grooves 5 to two chains in the first chain transmission mechanism 4 play the guide effect, this kind of conveyor, although solved the problem that first push pedal 3 easily destroys in the removal degree, the device uses two first chain transmission mechanism 4, and the cost is higher, and the utility model discloses a conveying equipment can solve the destroyed problem of third push pedal 11 through a third chain transmission mechanism 13, has practiced thrift the cost.

Claims (4)

1. A food processing packaging conveying equipment which characterized in that: the device comprises a third push plate, a third table panel, a third chain transmission mechanism and hexagonal wheels, wherein a third chain groove is formed in the third table panel, four corners of the lower side of the third table panel are respectively provided with a first supporting rod, two ends of the third table panel are symmetrically provided with two hexagonal wheels, and each hexagonal wheel is supported by two second supporting rods; the third chain transmission mechanism is wound on the two hexagonal wheels, and a plurality of third push plates are uniformly arranged on the third chain transmission mechanism;

the third chain transmission mechanism comprises chain plates and support lugs, wherein a plurality of chain plates are alternately connected with each other in a hinged mode to form a closed annular chain; the formed annular chain is matched with the two hexagonal wheels; a plurality of third push plates are correspondingly arranged on the support lugs in the annular chain one by one, and each support lug is in swing fit with the corresponding third push plate; the chain plate is matched with a third chain groove formed in the third table panel, and the middle upper side of the formed annular chain is nested in the third chain groove formed in the third table panel;

one end of each third push plate is provided with a connecting pin, and the axis of each connecting pin is collinear with the axis of the corresponding support lug; the connecting pins arranged at one end of each of the two adjacent third push plates are connected through a connecting rod;

the length of the chain plate is matched with six inclined planes on the outer side of the hexagonal wheel, and each chain plate corresponds to one inclined plane.

2. The food processing packaging conveying apparatus of claim 1, wherein: open in the backup pad has the shaft hole, install in four above-mentioned first bracing pieces at both ends at the both ends on two first bracing pieces that are located the rear side at the both ends, gear motor installs in the backup pad, the one end of pivot is installed on gear motor's output shaft, the other end of pivot passes the opposite side that the shaft hole in the backup pad is located the backup pad, the restriction wheel is installed in the pivot, circumference installs the multiunit cardboard uniformly on the restriction wheel, two cardboards in every group form a V-arrangement board, and the V-arrangement board cooperates with the push pedal of installing on third chain transmission mechanism.

3. The food processing packaging conveying apparatus of claim 1, wherein: the upper end of each support lug is fixedly provided with a mounting pin, the third push plate is provided with a mounting round hole, and the third push plate is arranged on the upper side of the corresponding support lug in a rotating fit manner through the mounting round hole on the third push plate and the corresponding mounting pin.

4. The food processing packaging conveying apparatus of claim 1, wherein: all install a back shaft between two above-mentioned second bracing pieces that lie in same one side, two hexagonal wheels are installed respectively on two back shafts that correspond.

Images