CN113213067B - Semi-solid seasoning production and conveying device and method - Google Patents

Abstract

The invention provides a semi-solid seasoning production and transmission device and a method, which comprises a stirring assembly, a front transmission structure and a rear transmission structure; the invention provides an integrated device which can finish the transportation of various types of semi-solid seasonings and realize a rapid production device for mixing various types of semi-solid seasonings in batches on some occasions. And, have two kinds of modes to leading conveyer belt, one kind is the transportation seasoning, then the later stage can be used for transporting bottle structure to set up rearmounted conveyer belt and leading conveyer belt butt joint still, realized the combination of the transportation of bottle structure and the transportation of material in the scope of saving space arrangement from this, had fine practicality. Moreover, in order to avoid the inclined conveyor belt to touch the outer wall of the tank body structure when the inclined conveyor belt is converted into the horizontal structure, the outer wall of the tank body can not touch the descending process of the inclined conveyor belt, and the inclined conveyor belt has good practicability.

Description

Semi-solid seasoning production and conveying device and method

Technical Field

The invention relates to a food processing device, in particular to a device structure for automatically realizing temporary mixing preparation and loading of semi-solid seasonings.

Background

The seasoning is an essential material in daily diet, and can be adjusted into seasonings with different types, different concentrations and different tastes according to different raw materials and different processing techniques.

The semi-solid seasoning is a common seasoning, and for example, various gourmet powder, sesame salt, edible salt and the like can be called as semi-solid state, and the flowability of the seasoning is slightly poor. In larger catering establishments, or large banquet establishments, it is often necessary to temporarily blend a plurality of mixed condiments, i.e., semi-solid condiments, and to dispense the blended, mixed and dispensed small packages to consumers or tasters.

However, in actual production, an automatic device is not provided for the process of temporarily preparing and dispensing the mixed semi-solid flavoring, so as to realize the above functions.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a structure capable of automatically completing the preparation, mixing, conveying and subpackaging of various semi-solid seasonings.

The invention provides a semi-solid seasoning production and conveying device which comprises a stirring assembly, a front conveying structure and a rear conveying structure, wherein the front conveying structure is arranged on the front end of the stirring assembly;

the stirring assembly is provided with a seasoning mixing tank, a stirring structure and an inclined lifting assembly, the stirring structure is arranged in the seasoning mixing tank, and the inclined lifting assembly is arranged at the lower part of the seasoning mixing tank;

the front conveying structure is arranged on one side of the upstream of the seasoning mixing tank, the front conveying structure is provided with a front conveying belt and a turnover structure, and the turnover structure is used for driving the front conveying belt to turn over, incline and horizontally place;

the upstream side of rearmounted conveying structure sets up the discharge gate downside of seasoning blending tank, rearmounted conveying structure's downstream one side still is provided with automatic capping subassembly and automatic screw capping subassembly.

The beneficial effect of above-mentioned scheme does: the invention provides an integrated device which can transport various types of semisolid seasonings, then add the semisolid seasonings into a mixing tank for mixing, and complete the subsequent split charging process, thereby realizing a rapid production device for mixing various semisolid seasonings in batches in some occasions. And, have two kinds of modes to leading conveyer belt, one kind is the transportation seasoning, then the later stage can be used for transporting bottle structure to set up rearmounted conveyer belt and leading conveyer belt butt joint still, realized the combination of the transportation of bottle structure and the transportation of material in the scope of saving space arrangement from this, had fine practicality. Moreover, in order to avoid the conveyer belt of putting to one side touching the outer wall of tank structure when converting to the structure of putting to the tie, set up here and lifted up the structure, can make the jar body carry out slight upset to one side, just so make the outer wall of the jar body can not touch the decline process of the conveyer belt of putting to one side, have fine practicality.

Preferably, the preposed conveying structure further comprises a side wing conveyor belt, the side wing conveyor belt is used for conveying bottle body structures, a downstream port of the side wing conveyor belt is provided with a first notch and a first blocking plate, an upstream port of the preposed conveyor belt is provided with a second notch, the first notch and the second notch are opposite, and the first blocking plate is used for pushing the bottle body structures on the side wing conveyor belt into the preposed conveyor belt;

the overturning structure is provided with an overturning motor and an overturning rod, and the overturning rod is connected with the bottom bracket of the front conveying structure;

two wing side plates are arranged at the position of a downstream port of the front conveyor belt, inclined guide plates are arranged above the two wing side plates, the inclined guide plates form a bending guide structure, and the inclined guide plates are used for being in butt joint with the rear conveyor structure.

The beneficial effect of above-mentioned scheme does: the bottle body structure conveying device is characterized in that two conveying channels, namely a lower channel and an upper channel of a front conveyor belt are specifically provided, the lower channel is used for conveying semisolid seasonings, the upper channel is used for conveying the bottle body structures independently or together with the lower channel, the bottle body structures are conveyed to the front conveyor belt through a side wing conveyor belt, and then the bottle body structures are conveyed to a rear conveyor belt in an inclined mode through an inclined guide plate on the upper layer when the bottle body structures are in the tail end position. The inclined inlet and outlet are favorable for turning over the conveying belts, and are convenient for butt joint of the interfaces of the two conveying belts.

One preferred scheme is, add the lid subassembly automatically and include the transportation body, propelling movement motor, transverse bar, the transportation body has vertical passageway and the separation space of holding, the separation space is located the vertical middle part that holds the passageway, the vertical lower port that holds the passageway sets up rearmounted conveying structure, the propelling movement motor with the transverse bar is connected, the one end of transverse bar is provided with separation board, lower separation board, lateral part baffle, go up separation board and lower separation board stagger and place, and go up separation board, lower separation board, lateral part baffle and form the space that holds the bottle lid structure, be used for holding the bottle lid structure in the vertical passageway that holds.

According to a preferable scheme, the automatic screwing assembly comprises a lifting motor, a lifting screw rod, a connecting block and a gripper structure, the lifting motor is connected with the lifting screw rod, the connecting block is arranged on the lifting screw rod, the gripper structure is arranged on the connecting block and is used for gripping the bottle cap structure, and the gripper structure is provided with an elastic structure and a rotating structure;

stirring structure is including rotating motor, dwang, buckling pole, agitator motor, first connecting block, first branch, second branch, agitator rod, the rotation motor is connected with shown dwang, the inner of buckling the pole is fixed on the dwang, the outer end of buckling the pole is connected with first connecting block, and agitator motor passes after buckling the pole with first connecting block is connected, set up on the first connecting block first branch and second branch, first branch with set up the multiunit on the second branch the agitator rod.

Preferably, the inclined lifting assembly comprises a lifting cylinder, the seasoning mixing tank is hinged to a mounting floor, and an upper port of the seasoning mixing tank is provided with an inclined feeding plate.

The invention provides a working method of a semi-solid seasoning production and conveying device, which comprises the following steps:

s1: the inclined conveyor belt is adjusted to be in an inclined placement state through the turnover structure, and the upper port of the inclined conveyor belt is located at the position of the upper port of the seasoning mixing tank; then, taking an inlet at the lower end of the inclined front conveyor belt as a feeding port of the dry materials, then conveying the dry materials on the upstream side with a relatively low position to a position with a relatively high position on the downstream side by the conveying action of the inclined front conveyor belt, and finally adding the dry materials into the seasoning mixing tank; then, a semi-solid flavoring is formed after the heating, stirring and mixing processes of the stirring structure;

s2: the front conveyor belt is adjusted to be changed from an inclined placement state to a horizontal placement state through the turnover structure, and in the process, the seasoning mixing tank is driven to be inclined and lifted towards one side far away from the inclined conveyor belt through the inclined lifting assembly, so that the inclined conveyor belt does not touch the inlet wall of the seasoning mixing tank in the downward moving process; then, the lower port of the front conveyor belt and the upstream port of the rear conveyor belt are converged and spliced;

s3: after the front conveyor belt is converted into a horizontal placement by the overturning structure, the bottle body structure on the upstream side is transported to the position on the downstream side by the conveying action of the horizontal front conveyor belt, and finally enters the rear conveyor belt structure; then, the post-positioned conveying structure drives the bottle body structure to move to a discharge hole position below the seasoning mixing tank and the loading process of the semi-solid seasoning is completed;

s4: the post-positioned conveying structure continuously drives the bottle body structure filled with the semi-solid seasoning to move towards the downstream side, the process that the bottle cap is sleeved at the top of the bottle body structure is completed through the automatic capping assembly, and then the process that the bottle cap is fastened at the top of the bottle body structure is completed through the automatic screwing assembly.

Preferably, the preposed conveying structure further comprises a side wing conveyor belt, the side wing conveyor belt is used for conveying bottle body structures, a downstream port of the side wing conveyor belt is provided with a first notch and a first blocking plate, an upstream port of the preposed conveyor belt is provided with a second notch, the first notch and the second notch are opposite, and the first blocking plate is used for pushing the bottle body structures on the side wing conveyor belt into the preposed conveyor belt; the overturning structure is provided with an overturning motor and an overturning rod, and the overturning rod is connected with the bottom bracket of the front conveying structure; two wing side plates are arranged at the position of a downstream port of the front conveyor belt, inclined guide plates are arranged above the two wing side plates, the inclined guide plates form a bending guide structure, and the inclined guide plates are used for being butted with the rear conveyor structure;

the working method comprises the following steps: in the process of transporting bottle structures through the horizontally arranged front conveyor belt, the side wing conveyor belt supplies bottle structures, and when the bottle structures move to the first notch position of the side wing conveyor belt, the bottle structures enter the front conveyor belt through the inclined blocking effect of the first blocking plate; then the bottle body structure moves to the downstream side along the front conveyor belt, and when the bottle body structure is transported to the tail end position, the bottle body structure is guided and transported through the inclined guide plate so as to enter the connected rear conveyor structure;

in addition, during the transportation of the bottle body structure through the inclined front conveyor belt, the dry materials are moved and fed along the front conveyor belt and are blocked and transported through the two wing side plates, the height of the dry materials is lower than that of the two wing plates, and the dry materials drop into the seasoning mixing tank below at the position of the downstream port.

The automatic capping assembly comprises a transport body, a pushing motor and a transverse rod, wherein the transport body is provided with a vertical accommodating channel and a blocking space, the blocking space is positioned in the middle of the vertical accommodating channel, the lower port of the vertical accommodating channel is provided with the rear conveying structure, the pushing motor is connected with the transverse rod, one end of the transverse rod is provided with an upper blocking plate, a lower blocking plate and a side partition plate, the upper blocking plate and the lower blocking plate are arranged in a staggered mode, the upper blocking plate, the lower blocking plate and the side partition plate form a space for accommodating a bottle cap structure, and the vertical accommodating channel is used for accommodating the bottle cap structure;

the working method comprises the following steps: the pushing motor drives an upper blocking plate and a lower blocking plate at the end part of the transverse rod to slide in a reciprocating mode in the blocking space, the two states are respectively a first state and a second state, the transverse rod is located at a position relatively far away from the pushing motor in the first state, the upper blocking plate is located at the interval of the two bottle caps at the lowest part in the first state, and the lower blocking plate blocks the bottle caps at the lowest part; then, in a second state, the transverse rod moves towards a position close to the pushing motor, the upper blocking plate enters the interval between the two bottle caps and blocks the next lowest bottle cap to move downwards in the moving process, the lower blocking plate moves close to the pushing motor and loses the supporting effect on the lowest bottle cap, and the lowest bottle cap falls on a bottle body structure below to complete the process of sleeving the bottle caps; and then carrying out a return movement, wherein the upper blocking plate loses the supporting and blocking effect on the next lower bottle cap, and the next lower bottle cap is enabled to be supported and blocked at the position of the lower blocking plate and waits for the next falling.

Drawings

Fig. 1 is a schematic view of the structure of a semi-solid seasoning production conveyor of the present invention;

fig. 2 is a schematic view of the structure of a semi-solid flavor production conveyor of the present invention;

fig. 3 is a schematic view of the structure of the semi-solid seasoning production conveyor of the present invention;

FIG. 4 is a schematic view of a flavor mixing tank of the semi-solid flavor production carousel of the present invention;

FIG. 5 is an enlarged schematic view of region A in FIG. 1;

FIG. 6 is an enlarged schematic view of region B in FIG. 2;

fig. 7 is an enlarged structural view of the automatic screw-on cap assembly of the semi-solid seasoning production transfer apparatus of the present invention, i.e., region D of fig. 3;

FIG. 8 is an enlarged schematic view of region C of FIG. 2;

FIG. 9 is a partial schematic view of the structure;

FIG. 10 is an enlarged schematic view of the automated capping assembly;

FIG. 11 is an enlarged view of area E of FIG. 1;

fig. 12 is an enlarged view of region F in fig. 11.

Detailed Description

The first embodiment:

as shown in fig. 1 to 5, the present invention provides a semi-solid seasoning production and delivery apparatus, which includes a stirring assembly 10, a pre-delivery structure 20 and a post-delivery structure 30;

the stirring assembly 10 is provided with a seasoning mixing tank 11, a stirring structure 12 and an inclined lifting assembly 13, wherein the stirring structure 12 is arranged in the seasoning mixing tank 11, and the inclined lifting assembly 13 is arranged at the lower part of the seasoning mixing tank 11;

the preposed conveying structure 20 is arranged on one side of the upstream of the seasoning mixing tank 11, the preposed conveying structure 20 is provided with a preposed conveying belt 21 and an overturning structure 22, and the overturning structure 22 is used for driving the preposed conveying belt 21 to be overturned, inclined and horizontally placed;

the upstream side of the post-conveying structure 30 is arranged at the lower side of the discharge port 14 of the seasoning mixing tank 11, and the downstream side of the post-conveying structure 30 is also provided with an automatic capping assembly 40 and an automatic screw-on assembly 50.

The invention provides a working method of a semi-solid seasoning production and conveying device, which comprises the following steps:

s1: the inclined conveyor belt 211 is adjusted to be in an inclined state through the turnover structure 22, and the upper port of the inclined conveyor belt 211 is positioned at the upper port of the seasoning mixing tank 11; then, the inlet at the lower end of the inclined pre-conveyor belt 211 is used as a feeding port of the dry material, then the dry material on the upstream side with a relatively low position is transported to the position with a relatively high position on the downstream side by the conveying action of the inclined pre-conveyor belt 211, and finally is added into the seasoning mixing tank 11; then, the semi-solid flavoring in a mixed state is formed after the heating, stirring and mixing processes of the stirring structure 10;

s2: the front conveyor belt 21 is adjusted by the turning structure 22 to be changed from an inclined placement state to a horizontal placement state, and in the process, the inclined lifting assembly 13 drives the seasoning mixing tank 11 to slightly lift obliquely to the side away from the inclined conveyor belt 211, so that the inclined conveyor belt 211 does not touch the inlet wall 15 of the seasoning mixing tank 11 in the process of moving downwards, and the edge of the upper end opening of the inlet wall 15 is preferably of an elastic structure; then, the lower port of the front conveyor belt 21 and the upstream port of the rear conveyor belt 30 are merged and spliced;

s3: after the front conveyor 20 is turned to be horizontally disposed by the turning structure 22, the bottle body structures 1 on the upstream side are then transported to the position on the downstream side by the conveying action of the horizontally disposed front conveyor 21, and finally enter the rear conveyor structure 30; then, the post-conveying structure 30 drives the bottle body structure 1 to move to the position of the discharge port 14 below the seasoning mixing tank 11 and completes the loading process of the semi-solid seasoning;

s4: the postposition conveying structure 30 continuously drives the bottle body structure 1 filled with the semisolid flavoring to move towards the downstream side, the process that the bottle cap 2 is sleeved at the top of the bottle body structure is completed through the automatic capping component 40, and then the process that the bottle cap 2 is fastened at the top of the bottle body 1 structure is completed through the automatic screwing component 50.

Second embodiment:

preferably, as shown in fig. 6 to 9, the pre-conveying structure 20 of the present embodiment further includes a side-wing conveyor belt 23, the side-wing conveyor belt 23 is used for conveying the bottle body structures 1, a downstream port 231 of the side-wing conveyor belt 23 has a first notch 24 and a first blocking plate 25, an upstream port 232 of the pre-conveying belt 21 has a second notch 26, the first notch 24 and the second notch 26 are opposite, and the first blocking plate 25 is used for pushing the bottle body structures 1 on the side-wing conveyor belt 23 onto the pre-conveying belt 21; the overturning structure 22 is provided with an overturning motor 27 and an overturning rod 28, and the overturning rod 28 is connected with a bottom bracket 29 of the front conveying structure 20; two wing side plates 212 are arranged at the position of the downstream port 211 of the front conveyor belt 21, an inclined guide plate 213 is arranged above the two wing side plates 212, the inclined guide plate 213 forms a bending guide structure, and the inclined guide plate 213 is used for being butted with the rear conveyor structure 30;

the working method comprises the following steps: during the transportation of the bottle body structures 1 by the horizontally placed front conveyor 21, the lateral wing conveyor 23 supplies the bottle body structures 1, and when the bottle body structures 1 move to the position of the first notch 24 of the lateral wing conveyor 23, the bottle body structures enter the front conveyor 20 by the inclined blocking effect of the first blocking plate 25; then the bottle body structure 1 moves to the downstream side along the front conveyor 21, and when the bottle body structure is transported to the end position, the bottle body structure 1 is guided to be transported by the inclined guide plate 213 so as to enter the connected rear conveyor 30;

in addition, during the transportation of the bottle body structures 1 by the inclined front conveyor 21, the dry materials are fed along the front conveyor 21 and are blocked and transported by the two wing side plates 212, and the height of the dry materials is lower than that of the two wing plates and falls into the seasoning mixing tank 11 below at the position of the downstream port 211. Two independent transport channels are provided at the end of the front conveyor 21, one is a bottom channel, i.e. the transport dry material flows out through the two wing side plates 212, and in addition, the bottle body structure moves in the direction of the inclined guide plates and flows out.

The third embodiment:

preferably, as shown in fig. 10 to 12, the automatic capping assembly 40 of the present embodiment includes a transport body 41, a pushing motor 42, and a transverse rod 43, the transport body 41 has a vertical accommodating channel 44 and a blocking space 45, the blocking space 45 is located in the middle of the vertical accommodating channel 44, the lower port of the vertical accommodating channel 44 is provided with the rear conveying structure 30, the pushing motor 42 is connected to the transverse rod 43, one end of the transverse rod 43 is provided with an upper blocking plate 48, a lower blocking plate 46, and a side partition plate 47, the upper blocking plate 48 is offset from the lower blocking plate 46, and the upper blocking plate 48, the lower blocking plate 46, and the side partition plate 47 form a space for accommodating the bottle cap structure 2, and the vertical accommodating channel 44 is used for accommodating the bottle cap structure 2;

the working method comprises the following steps: the pushing motor 42 drives the upper blocking plate 48 and the lower blocking plate 46 at the end of the transverse rod 43 to slide in a reciprocating manner in the blocking space 45, and the two states are respectively a first state and a second state, in the first state, the transverse rod 43 is located at a position relatively far away from the pushing motor 42, the upper blocking plate 48 is located at one side of the interval between the two lowermost bottle caps 2, and the lower blocking plate 46 blocks the lowermost bottle caps 2; then, in a second state, when the transverse rod 43 moves to a position close to the pushing motor 42, the upper blocking plate 48 enters the gap between the two bottle caps 2 and blocks the next lowest bottle cap 2 from moving downwards in the moving process, the lower blocking plate 46 moves close to the pushing motor 42 and loses the supporting effect on the lowest bottle cap 2, and the lowest bottle cap 2 falls on the bottle body structure 1 below to complete the process of sleeving the bottle caps 2; a return movement is then carried out, at which time the upper barrier plate 48 loses its supporting barrier effect on the next lower closure 2 and causes the next lower closure 2 to be supported and blocked in the position of the lower barrier plate 46 and await the next fall.

The fourth embodiment:

as shown in fig. 7, the automatic cap screwing assembly 50 comprises a lifting motor 51, a lifting screw rod 52, a connecting block 53 and a hand grip structure 54, wherein the lifting motor 51 is connected with the lifting screw rod 52, the connecting block 53 is arranged on the lifting screw rod 52, the hand grip structure 54 is arranged on the connecting block 53, the hand grip structure 54 is used for gripping the bottle cap 2 structure, and the hand grip structure 54 is provided with an elastic structure 55 and a rotating structure 56;

as shown in fig. 4, the stirring structure 12 includes a rotating motor 121, a rotating rod 122, a bending rod 123, a stirring motor 124, a first connecting block 125, a first supporting rod 126, a second supporting rod 127, and a stirring rod 128, wherein the rotating motor 121 is connected to the rotating rod 122, an inner end of the bending rod 123 is fixed on the rotating rod 122, an outer end of the bending rod 123 is connected to the first connecting block 125, the stirring motor 124 passes through the bending rod 123 and then is connected to the first connecting block 125, the first connecting block 125 is provided with the first supporting rod 126 and the second supporting rod 127, and the first supporting rod 126 and the second supporting rod 127 are provided with a plurality of groups of stirring rods 128.

The inclined lifting assembly 13 comprises a lifting cylinder 131, the seasoning mixing tank 11 is hinged on the installation floor 16, and the upper port of the seasoning mixing tank 11 is provided with an inclined feeding plate 17.

Claims (8)

1. A semi-solid seasoning production conveyor, comprising:

the stirring assembly is provided with a seasoning mixing tank, a stirring structure and an inclined lifting assembly, wherein the stirring structure is arranged in the seasoning mixing tank, and the inclined lifting assembly is arranged at the lower part of the seasoning mixing tank;

the front conveying structure is arranged on one side of the upstream of the seasoning mixing tank and is provided with a front conveying belt and a turning structure, and the turning structure is used for driving the front conveying belt to turn obliquely and horizontally;

the rear conveying structure is arranged on one side of the upstream of the rear conveying structure and is arranged on the lower side of a discharge port of the seasoning mixing tank, and an automatic capping assembly and an automatic screwing assembly are further arranged on one side of the downstream of the rear conveying structure.

2. The semi-solid flavor production conveyor of claim 1,

the preposed conveying structure also comprises a side wing conveying belt, the side wing conveying belt is used for conveying bottle body structures, a downstream port of the side wing conveying belt is provided with a first gap and a first blocking plate, an upstream port of the preposed conveying belt is provided with a second gap, the first gap is opposite to the second gap, and the first blocking plate is used for pushing the bottle body structures on the side wing conveying belt into the preposed conveying belt;

the overturning structure is provided with an overturning motor and an overturning rod, and the overturning rod is connected with the bottom bracket of the front conveying structure;

two wing side plates are arranged at the position of a downstream port of the front conveyor belt, inclined guide plates are arranged above the two wing side plates, the inclined guide plates form a bending guide structure, and the inclined guide plates are used for being in butt joint with the rear conveyor structure.

3. The semi-solid seasoning production and conveying device of claim 1, wherein the automatic capping assembly comprises a conveying body, a pushing motor and a transverse rod, the conveying body is provided with a vertical accommodating channel and a blocking space, the blocking space is located in the middle of the vertical accommodating channel, the lower port of the vertical accommodating channel is provided with the rear conveying structure, the pushing motor is connected with the transverse rod, one end of the transverse rod is provided with an upper blocking plate, a lower blocking plate and a side partition plate, the upper blocking plate and the lower blocking plate are arranged in a staggered mode, the upper blocking plate, the lower blocking plate and the side partition plate form a space for accommodating a bottle cap structure, and the vertical accommodating channel is used for accommodating the bottle cap structure.

4. The semi-solid flavor production conveyor of claim 3,

the automatic cap screwing assembly comprises a lifting motor, a lifting screw rod, a connecting block and a gripper structure, the lifting motor is connected with the lifting screw rod, the connecting block is arranged on the lifting screw rod, the gripper structure is arranged on the connecting block and is used for gripping the bottle cap structure, and the gripper structure is provided with an elastic structure and a rotating structure;

stirring structure is including rotating motor, dwang, buckling pole, agitator motor, first connecting block, first branch, second branch, agitator rod, rotate the motor with the dwang is connected, the inner of buckling the pole is fixed on the dwang, the outer end of buckling the pole is connected with first connecting block, and agitator motor passes after buckling the pole with first connecting block is connected, set up on the first connecting block first branch and second branch, first branch with set up the multiunit on the second branch the agitator rod.

5. The semi-solid flavor production conveyor of claim 1,

the inclined lifting assembly comprises a lifting cylinder, the seasoning mixing tank is hinged to the installation floor, and an inclined feeding plate is arranged at the upper end opening of the seasoning mixing tank.

6. The method of operating a semi-solid flavor production conveyor of claim 1, comprising the steps of:

s1: the front conveyor belt is adjusted to be in an inclined placement state through the overturning structure, and the upper port of the front conveyor belt is positioned at the position of the upper port of the seasoning mixing tank; then, taking an inlet at the lower end of the inclined front conveyor belt as a feeding port of the dry materials, then conveying the dry materials on the upstream side with a relatively low position to a position with a relatively high position on the downstream side by the conveying action of the inclined front conveyor belt, and finally adding the dry materials into the seasoning mixing tank; then, a semi-solid flavoring is formed after the heating, stirring and mixing processes of the stirring structure;

s2: the front conveyor belt is adjusted to be changed from an inclined placement state to a horizontal placement state through the turnover structure, and in the process, the seasoning mixing tank is driven to be inclined and lifted towards one side far away from the front conveyor belt through the inclined lifting assembly, so that the front conveyor belt cannot touch the inlet wall of the seasoning mixing tank in the downward moving process; then, the lower port of the front conveyor belt and the upstream port of the rear conveyor belt are converged and spliced;

s3: after the front conveyor belt is converted into a horizontal position through the overturning structure, the bottle body structure on the upstream side is conveyed to the position on the downstream side through the conveying action of the front conveyor belt in a horizontal state, and finally enters the rear conveying structure; then, the post-positioned conveying structure drives the bottle body structure to move to a discharge hole position below the seasoning mixing tank and the loading process of the semi-solid seasoning is completed;

s4: the post-positioned conveying structure continuously drives the bottle body structure filled with the semi-solid seasoning to move towards the downstream side, the process that the bottle cap is sleeved at the top of the bottle body structure is completed through the automatic capping assembly, and then the process that the bottle cap is fastened at the top of the bottle body structure is completed through the automatic screwing assembly.

7. The method of operating a semi-solid seasoning production conveyor of claim 6,

the preposed conveying structure also comprises a side wing conveying belt, the side wing conveying belt is used for conveying bottle body structures, a downstream port of the side wing conveying belt is provided with a first gap and a first blocking plate, an upstream port of the preposed conveying belt is provided with a second gap, the first gap is opposite to the second gap, and the first blocking plate is used for pushing the bottle body structures on the side wing conveying belt into the preposed conveying belt; the overturning structure is provided with an overturning motor and an overturning rod, and the overturning rod is connected with the bottom bracket of the front conveying structure; two wing side plates are arranged at the position of a downstream port of the front conveyor belt, inclined guide plates are arranged above the two wing side plates, the inclined guide plates form a bending guide structure, and the inclined guide plates are used for being butted with the rear conveyor structure;

the working method comprises the following steps: in the process of transporting bottle structures through the horizontally arranged front conveyor belt, the side wing conveyor belt supplies bottle structures, and when the bottle structures move to the first notch position of the side wing conveyor belt, the bottle structures enter the front conveyor belt through the inclined blocking effect of the first blocking plate; then the bottle body structure moves to the downstream side along the front conveyor belt, and when the bottle body structure is transported to the tail end position, the bottle body structure is guided and transported through the inclined guide plate so as to enter the connected rear conveyor structure;

in addition, during the transportation of the dry materials through the inclined front conveyor belt, the dry materials are fed along the front conveyor belt and are blocked and transported through the two wing side plates, the height of the dry materials is lower than that of the two wing plates, and the dry materials drop into the seasoning mixing tank below at the position of the downstream port.

8. The operating method of the semi-solid seasoning production conveying device is characterized in that the automatic capping assembly comprises a conveying body, a pushing motor and a transverse rod, the conveying body is provided with a vertical containing channel and a blocking space, the blocking space is located in the middle of the vertical containing channel, the lower port of the vertical containing channel is provided with the rear conveying structure, the pushing motor is connected with the transverse rod, one end of the transverse rod is provided with an upper blocking plate, a lower blocking plate and a side partition plate, the upper blocking plate and the lower blocking plate are arranged in a staggered mode, the upper blocking plate, the lower blocking plate and the side partition plate form a space for containing a bottle cap structure, and the vertical containing channel is used for containing the bottle cap structure;

the working method comprises the following steps: the pushing motor drives an upper blocking plate and a lower blocking plate at the end part of the transverse rod to slide in a reciprocating mode in the blocking space, the two states are respectively a first state and a second state, the transverse rod is located at a position relatively far away from the pushing motor in the first state, the upper blocking plate is located at the interval of the two bottle caps at the lowest part in the first state, and the lower blocking plate blocks the bottle caps at the lowest part; then, in a second state, the transverse rod moves to a position close to the pushing motor, the upper blocking plate enters the interval between the two bottle caps and blocks the next lowest bottle cap to move downwards in the moving process, the lower blocking plate moves close to the pushing motor to lose the supporting effect on the lowest bottle cap, and the lowest bottle cap falls on a bottle body structure below to complete the process of sleeving the bottle caps; and then carrying out a return movement, wherein the upper blocking plate loses the supporting and blocking effect on the next lower bottle cap, and the next lower bottle cap is enabled to be supported and blocked at the position of the lower blocking plate and waits for the next falling.

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