CN113142260B

CN113142260B - Batching machine for making cake by using sugar substitute raw materials and working method of batching machine

Info

Publication number: CN113142260B
Application number: CN202110365096.1A
Authority: CN
Inventors: 黄秋平
Original assignee: Carlton Group Co ltd
Current assignee: Carlton Group Co ltd
Priority date: 2021-04-06
Filing date: 2021-04-06
Publication date: 2023-07-07
Anticipated expiration: 2041-04-06
Also published as: CN113142260A

Abstract

The invention relates to the field of cake batching machines, in particular to a batching machine for making cakes by using sugar-substituted raw materials, which comprises a conveying belt, wherein the conveying belt is driven by a motor, a plurality of raw material supply barrels are arranged above the conveying belt, two sides of each raw material supply barrel are respectively fixed on the conveying belt through a left support and a right support, and a dispersing mechanism and a driving mechanism for driving the dispersing mechanism are arranged on the raw material supply barrels. According to the invention, the dispersing mechanism is arranged under the discharging pipe of the raw material supply barrel, the raw material falling into the limiting barrel of the raw material supply barrel can move relative to the dispersing net under the action of the dispersing net of the dispersing mechanism, so that the raw material can uniformly pass through the dispersing net, the raw material is uniformly dispersed, the uniform mixing of the raw material in the later stage is facilitated, and the driving mechanism on the corresponding raw material supply barrel can be controlled by the controller under the action of the cooperation of the infrared generator and the infrared receiver corresponding to each raw material supply barrel, so that the raw material can be uniformly scattered correspondingly.

Description

Batching machine for making cake by using sugar substitute raw materials and working method of batching machine

Technical Field

The invention relates to the field of cake proportioning machines, in particular to a proportioning machine for preparing cakes by using sugar substitute raw materials and a working method thereof.

Background

In the life, cake is one of the foods which people particularly like, and the traditional cake production is generally to make cake by using a production line so as to meet the requirement of mass production. The cake production line is generally divided into a batching area, a stirring area, a dough mixing area, a fermentation area and a baking area, and the traditional batching area is generally conveyed to the dough mixing area through a conveying belt after being batched by a batching machine.

However, when the traditional batching machine is used for batching, different raw materials are difficult to uniformly scatter in a batching barrel, when the raw materials in the batching barrel are mixed, the phenomenon of uneven mixing is easy to occur, and then the produced cake taste is influenced, so that the cake taste produced in the same batch is different.

Disclosure of Invention

The invention provides a proportioning machine for making cakes by using sugar-substituted raw materials and a working method thereof, which aim to solve the problem that different raw materials are difficult to uniformly scatter in a proportioning barrel when the proportioning machine in the prior art is used for proportioning.

The invention adopts the following technical scheme: a proportioning machine for making cakes by using sugar substitute raw materials, which comprises a conveyer belt 1, wherein the conveyer belt 1 is driven by a motor 11, and is characterized in that: a plurality of raw material supply barrels 4 are arranged right above the conveyor belt 1, two sides of each raw material supply barrel 4 are respectively fixed on the conveyor belt 1 through a left support 2 and a right support 3, a dispersing mechanism 5 and a driving mechanism 6 for driving the dispersing mechanism 5 are arranged on the raw material supply barrels 4, a motor 11 is electrically connected with a controller, and each driving mechanism 6 is respectively connected with the controller in series; an infrared generator 22 is arranged on each left support 2, an infrared receiver 32 for receiving infrared rays emitted by the infrared generator 22 is arranged at the position of each right support 3 corresponding to the infrared generator 22, and each infrared generator 22 and each infrared receiver 32 are electrically connected with a controller;

the raw material supply barrel 4 is vertically communicated, a discharging pipe 42 is arranged in the center of the barrel bottom of the raw material supply barrel 4, a sealing pad 43 is fixed at the end part of the discharging pipe 42, the center of the sealing pad 43 penetrates through, and a moving hole 41 transversely penetrates through the raw material supply barrel 4 at a position corresponding to the lower part of the discharging pipe 42;

the dispersing mechanism 5 comprises a bulk material mechanism 51, a front plate 52 and a rear plate 53 are respectively fixed on the front side and the rear side of the bulk material mechanism 51, the front plate 52 and the rear plate 53 are respectively embedded into the moving hole 41, the bulk material mechanism 51 is nested under the corresponding discharging pipe 42 of the raw material supply barrel 4, and the bulk material mechanism 51 moves relative to the discharging pipe 42;

the bulk cargo mechanism 51 comprises a limiting cylinder 511, a baffle plate 512 is arranged at one end of the limiting cylinder 511, which is close to the discharging pipe 42, a feeding hole 513 is formed through the center of the baffle plate 512, the upper surface of the baffle plate 512 is tightly attached to the surface of the sealing gasket 43, and a dispersing net 514 is arranged at one end of the limiting cylinder 511, which is far away from the baffle plate 512.

As a further improvement, the positions of the raw material supply barrel 4 corresponding to the left support 2 and the right support 3 are respectively provided with a support rod 44, the positions of the left support 2 and the right support 3 corresponding to the support rods 44 are respectively penetrated with a left support hole 21 and a right support hole 31, and the support rods 44 at two sides of the raw material supply barrel 4 are respectively penetrated and fixed in the left support hole 21 and the right support hole 31.

As a further improvement, the barrel bottom of the raw material supply barrel 4 is a conical surface 40 with gradually reduced aperture from one end to the other end, and one end of the conical surface 40 with smaller aperture is connected with a discharging pipe 42.

As a further improvement, the lower end portion of the discharging pipe 42 is provided with an inward concave positioning groove 421, the sealing pad 43 is provided with a convex positioning ring 431 at a position corresponding to the positioning groove 421, the positioning ring 431 is embedded into the positioning groove 421, and the positioning ring 431 is in interference fit with the positioning groove 421, wherein the sealing pad 43 and the positioning ring 431 are made of flexible rubber.

As a further improvement, the outer surface of one end of the limiting cylinder 511 far away from the striker plate 512 is provided with an outwardly extending connecting plate 515, one ends of the front plate 52 and the rear plate 53 close to the limiting cylinder 511 are respectively provided with an inwardly concave front arc groove 521 and a rear arc groove 531, the front arc groove 521 and the rear arc groove 531 are matched with the outer surface of the limiting cylinder 511, wherein the front arc groove 521 and the rear arc groove 531 form a closed loop, the positions of the front plate 52 and the rear plate 53 close to one end of the limiting cylinder 511 and corresponding to the connecting plate 515 are respectively provided with an inwardly concave front clamping groove 522 and a inwardly concave rear clamping groove 532, one end of the connecting plate 515 is fixedly embedded in the front clamping groove 522, and the other end of the connecting plate 515 is fixedly embedded in the rear clamping groove 532.

As a further improvement, a protruding annular guide cylinder 516 is provided below the connection plate 515 corresponding to the position of the dispersing net 514, wherein the inner diameter of the guide cylinder 516 is larger than the outer diameter of the dispersing net 514.

As a further improvement, the driving mechanism 6 includes a cylinder 61, the cylinder 61 is fixed on the surface of the raw material supply barrel 4, a piston rod 62 of the cylinder 61 is penetrated with a fixing hole 63, the fixing hole 63 is nested and fixed with a connecting rod 64, and the other end of the connecting rod 64 is fixed on the front plate 52.

A method of operating a compounder for making cake from a substitute sugar feed, comprising:

firstly, pouring various ingredients required by cakes into different raw material supply barrels 4 respectively;

secondly, switching on a power supply of the motor 11 to drive the conveyer belt 1 by the motor 11, and starting conveying the conveyer belt 1;

thirdly, placing a batching bucket which does not hold cake batching on a conveying belt 1;

fourth, the material mixing barrel is conveyed towards the direction of the raw material supply barrel 4 through the conveying belt 1 until the material mixing barrel is conveyed between the left support 2 and the right support 3 below the raw material supply barrel 4, the material mixing barrel blocks the infrared rays emitted by the infrared generator 22, the infrared receiver 32 cannot receive the infrared rays, the motor 11 is controlled by the controller to stop driving, and at the moment, the material mixing barrel is conveyed to the position right below the bulk cargo mechanism 51;

fifthly, when the infrared generator 22 of the raw material supply barrel 4 is shielded, the controller controls the driving mechanism 6 on the corresponding raw material supply barrel 4 to drive reciprocally, the piston rod of the air cylinder 61 drives the connecting rod 64 to move, then the connecting rod 64 drives the front plate 52 to move, the front plate 52 drives the bulk material mechanism 51 to move reciprocally, at the moment, the raw material in the raw material supply barrel 4 falls into the limit barrel 511 through the discharging pipe 42 and the feeding hole 513, and then the bulk material mechanism 51 moves reciprocally, the dispersing net 514 vibrates, the raw material is dispersed by the pores of the dispersing net 514 and falls into the batching barrel, and after the driving mechanism 6 is driven for a period of time, the driving mechanism 6 is controlled by the controller to stop driving, and meanwhile, the driving motor 11 drives the conveying belt 1;

and sixthly, repeating the steps from the fourth step to the fifth step, uniformly adding ingredients in different raw material supply barrels 4 on the conveyor belt 1 into the ingredient barrels to finish automatic ingredients, and finally conveying the ingredient barrels with the ingredients to the next procedure by the conveyor belt 1.

As can be seen from the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: according to the invention, the dispersing mechanism 5 is arranged under the discharging pipe 42 of the raw material supply barrel 4, the raw material falling into the limiting barrel 511 of the raw material supply barrel 4 can move relative to the dispersing net 514 under the action of the dispersing net 514 of the dispersing mechanism 5, so that the raw material can uniformly pass through the dispersing net 514, the raw material can be uniformly dispersed, the uniform mixing of the raw material in the later stage is facilitated, and the driving mechanism 6 on the corresponding raw material supply barrel 4 can be controlled by the controller under the action of the cooperation of the infrared generator 22 and the infrared receiver 32 corresponding to each raw material supply barrel 4, so that the raw material can be uniformly scattered correspondingly.

Drawings

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

Fig. 2 is a schematic structural view of the raw material supply barrel of the present invention.

Fig. 3 is an enlarged schematic view of the structure of fig. 2 a.

Fig. 4 is a schematic structural view of the left support and the right support of the present invention.

Fig. 5 is a schematic view showing a front sectional structure of the raw material supply barrel of the present invention.

Fig. 6 is an enlarged schematic view of the structure of fig. 5 a.

Fig. 7 is a schematic structural view of the dispersing mechanism of the present invention.

Fig. 8 is a schematic exploded view of the dispersing mechanism of the present invention.

Fig. 9 is a schematic view of the bottom structure of the bulk material mechanism of the present invention.

Detailed Description

Specific embodiments of the present invention will be described below with reference to the accompanying drawings.

As shown in fig. 1, 2 and 4, a batching machine for making cakes by using substituted sugar comprises a conveyer belt 1, wherein the conveyer belt 1 is driven by a motor 11, a plurality of raw material supply barrels 4 are arranged right above the conveyer belt 1, and two sides of each raw material supply barrel 4 are respectively fixed on the conveyer belt 1 through a left support 2 and a right support 3; the positions of the raw material supply barrel 4 corresponding to the left support 2 and the right support 3 are respectively provided with a support rod 44, the positions of the left support 2 and the right support 3 corresponding to the support rods 44 respectively penetrate through the left support hole 21 and the right support hole 31, and the support rods 44 on two sides of the raw material supply barrel 4 respectively penetrate through and are fixed in the left support hole 21 and the right support hole 31; the raw material supply barrels 4 are provided with a dispersing mechanism 5 and a driving mechanism 6 for driving the dispersing mechanism 5, the motor 11 is electrically connected with a controller, each driving mechanism 6 is respectively connected with the controller in series, and the driving mechanism 6 on each raw material supply barrel 4 can be respectively controlled by the controller, wherein the controller can be a PLC controller.

As shown in fig. 1 and 4, each left support 2 is provided with an infrared generator 22, the position of the infrared generator 22 corresponding to each right support 3 is provided with an infrared receiver 32 for receiving infrared rays emitted by the infrared generator 22, each infrared generator 22 and each infrared receiver 32 are electrically connected with a controller, and under the action of the cooperation of the infrared generator 22 corresponding to each raw material supply barrel 4 and the infrared receiver 32, the driving mechanism 6 on the corresponding raw material supply barrel 4 can be controlled by the controller.

As shown in fig. 2, 5 and 6, the raw material supply barrel 4 is vertically communicated, a discharging pipe 42 is arranged at the center of the barrel bottom of the raw material supply barrel 4, the barrel bottom of the raw material supply barrel 4 is a conical surface 40 with one end gradually decreasing from the other end, one end of the conical surface 40 with smaller aperture is connected with the discharging pipe 42, and raw materials in the raw material supply barrel 4 can sink towards the direction of the discharging pipe 42 under the action of inclination of the conical surface 40, so that the raw materials are prevented from being accumulated in the raw material supply barrel 4; the end of the discharging pipe 42 is fixed with a sealing gasket 43, the center of the sealing gasket 43 penetrates through, the discharging pipe 42 is communicated with the center of the sealing gasket 43, the lower end of the discharging pipe 42 is provided with an inwards concave positioning groove 421, the position of the sealing gasket 43 corresponding to the positioning groove 421 is provided with a convex positioning ring 431, the positioning ring 431 is embedded into the positioning groove 421, the positioning ring 431 is in interference fit with the positioning groove 421, the sealing gasket 43 and the positioning ring 431 are made of flexible rubber, and under the action of the sealing gasket 43 and the positioning ring 431 made of rubber, the sealing gasket 43 has a sealing effect, and meanwhile the positioning ring 431 is embedded into the positioning groove 421 to be more stable. The raw material supply barrel 4 transversely penetrates through a moving hole 41 at a position corresponding to the lower part of the discharging pipe 42.

As shown in fig. 1, 2, 7, 8 and 9, the dispersing mechanism 5 comprises a bulk material mechanism 51, a front plate 52 and a rear plate 53 are respectively fixed on the front side and the rear side of the bulk material mechanism 51, the front plate 52 and the rear plate 53 are respectively embedded into the moving hole 41, the bulk material mechanism 51 is nested under the corresponding discharging pipe 42 of the raw material supply barrel 4, and the bulk material mechanism 51 moves relative to the discharging pipe 42; the bulk cargo mechanism 51 comprises a limit cylinder 511, one end of the limit cylinder 511, which is close to the discharging pipe 42, is provided with a baffle 512, the center of the baffle 512 is penetrated to form a feeding hole 513, under the action of the feeding hole 513, raw materials can fall into the limit cylinder 511 from the discharging pipe 42, the upper surface of the baffle 512 is tightly attached to the surface of the sealing pad 43, under the action of the tight attachment of the baffle 512 and the sealing pad 43, when the center of the sealing pad 43 is penetrated, the position of the baffle 512 is completely covered by the baffle 512, the raw materials are blocked in the discharging pipe 42, when the center of the sealing pad 43 is penetrated, the position of the baffle 513 is overlapped with the feeding hole 513, the raw materials can fall into the limit cylinder 511, so as to avoid excessive raw materials in the limit cylinder 511, and one end of the limit cylinder 511, which is far away from the baffle 512, is provided with a dispersing net 514, can move the raw materials in the limit cylinder 511 relative to the dispersing net 514 under the action of the movement of the dispersing net 514, so that the raw materials can uniformly pass through the dispersing net 514, the raw materials are uniformly dispersed, the raw materials can be uniformly mixed in the later stage, when the dispersing net 514 is not moved, the dispersing net 514 is blocked in the relative dispersing net 514. The outer surface of the end, far away from the striker plate 512, of the limiting cylinder 511 is provided with an outwardly extending connecting plate 515, a protruding annular guide cylinder 516 is arranged below the connecting plate 515 and corresponds to the position of the dispersing net 514, wherein the inner diameter of the guide cylinder 516 is larger than the outer diameter of the dispersing net 514, and raw materials can be limited to vertically fall under the action of the guide cylinder 516.

As shown in fig. 7 and 8, one ends of the front plate 52 and the rear plate 53, which are close to the limiting cylinder 511, are respectively provided with a front arc groove 521 and a rear arc groove 531 which are concave inwards, the front arc groove 521 and the rear arc groove 531 are matched with the outer surface of the limiting cylinder 511, wherein the front arc groove 521 and the rear arc groove 531 form a closed loop, one ends of the front plate 52 and the rear plate 53, which are close to the limiting cylinder 511, are respectively provided with a front clamping groove 522 and a rear clamping groove 532 which are concave inwards, one end of the connecting plate 515 is embedded and fixed in the front clamping groove 522, and the other end of the connecting plate 515 is embedded and fixed in the rear clamping groove 532.

As shown in fig. 2 and 3, the driving mechanism 6 includes an air cylinder 61, the air cylinder 61 is fixed on the surface of the raw material supply barrel 4, a piston rod 62 of the air cylinder 61 is penetrated with a fixing hole 63, the fixing hole 63 is nested and fixed with a connecting rod 64, the other end of the connecting rod 64 is fixed on the front plate 52, and the front plate 52 can be driven to reciprocate back and forth by the driving of the air cylinder 61, and meanwhile, the bulk cargo mechanism 51 can be driven to reciprocate by the fixing of the bulk cargo mechanism 51 on the front plate 52.

As shown in fig. 1 to 9, a method of operating a batching machine for making cakes from a substitute sugar feedstock, comprising:

The foregoing is merely illustrative of specific embodiments of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modification of the present invention by using the design concept shall fall within the scope of the present invention.

Claims

1. The utility model provides a make proportioning machine of cake with substituted sugar feed, includes the conveyer belt, the conveyer belt is by motor drive, its characterized in that: a plurality of raw material supply barrels are arranged right above the conveying belt, two sides of each raw material supply barrel are respectively fixed on the conveying belt through a left support and a right support, a dispersing mechanism and a driving mechanism for driving the dispersing mechanism are arranged on each raw material supply barrel, the motor is electrically connected with the controller, each driving mechanism is respectively connected with the controller in series, the barrel bottom of each raw material supply barrel is a conical surface with one end gradually decreasing to the other end, and one end with a small aperture of the conical surface is connected with a discharging pipe;

an infrared generator is arranged on each left support, an infrared receiver for receiving infrared rays emitted by the infrared generator is arranged at the position of the infrared generator corresponding to each right support, and each infrared generator and each infrared receiver are electrically connected with a controller;

the raw material supply barrel is communicated up and down, a discharging pipe is arranged in the center of the barrel bottom of the raw material supply barrel, a sealing gasket is fixed at the end part of the discharging pipe, the center of the sealing gasket penetrates through the sealing gasket, and a moving hole transversely penetrates through the raw material supply barrel at a position corresponding to the lower part of the discharging pipe;

the dispersing mechanism comprises a bulk material mechanism, a front plate and a rear plate are respectively fixed on the front side and the rear side of the bulk material mechanism, the front plate and the rear plate are respectively embedded into the moving holes, the bulk material mechanism is nested under the corresponding discharging pipe of the raw material supply barrel, and the bulk material mechanism moves relative to the discharging pipe;

the bulk cargo mechanism is including a spacing section of thick bamboo, the one end that spacing section of thick bamboo is close to the discharging pipe is equipped with the striker plate, the striker plate center runs through and forms the feed port, the upper surface of striker plate and the surface of sealed pad are closely laminated, the one end that the striker plate was kept away from to spacing section of thick bamboo is equipped with the dispersion network, the surface that baffle plate one end was kept away from to spacing section of thick bamboo is equipped with the connecting plate of outside extension, the one end that front bezel and back plate are close to spacing section of thick bamboo is equipped with inwards concave preceding circular arc groove and back arc groove respectively, preceding circular arc groove and back arc groove and the surface phase-match of spacing section of thick bamboo, wherein preceding circular arc groove and back arc groove are equipped with inwards concave preceding draw-in groove and back draw-in groove respectively in the position that the connecting plate is close to spacing section of thick bamboo one end and corresponds the connecting plate, the other end embedding of connecting plate is fixed in preceding draw-in the back draw-in groove, the position that the below of connecting plate corresponds the dispersion network is equipped with convex annular guide cylinder, and wherein the internal diameter of guide cylinder is greater than the external diameter of dispersion network, actuating mechanism is fixed in the connecting rod on the cylinder fixed with the cylinder end of cylinder fixed with the connecting rod on the fixed surface of cylinder.

2. A machine for making cakes from raw materials according to claim 1, characterized in that: the position of the raw material supply barrel corresponding to the left support and the right support is respectively provided with a support rod, the positions of the left support and the right support corresponding to the support rods respectively penetrate through left support holes and right support holes, and the support rods on two sides of the raw material supply barrel respectively penetrate through and are fixed in the left support holes and the right support holes.

3. A machine for making cakes from raw materials according to claim 1, characterized in that: the lower end of the discharging pipe is provided with an inwards concave positioning groove, the sealing gasket is provided with a convex positioning ring at the position corresponding to the positioning groove, the positioning ring is embedded into the positioning groove and is in interference fit with the positioning groove, and the sealing gasket and the positioning ring are made of flexible rubber.

4. The method of claim 1, comprising:

firstly, pouring various ingredients required by cakes into different raw material supply barrels respectively;

secondly, switching on a power supply of the motor to drive the conveyer belt by the motor, so that the conveyer belt starts to convey;

thirdly, placing a batching bucket which does not hold cake batching on a conveying belt;

the fourth step, the batching barrel is conveyed towards the direction of the raw material supply barrel through the conveying belt, the batching barrel blocks the infrared rays emitted by the infrared generator after being conveyed between the left support and the right support below the raw material supply barrel, after the infrared receiver can not receive the infrared rays, the motor is controlled by the controller to stop driving, and at the moment, the batching barrel is conveyed to the position right below the bulk cargo mechanism;

fifthly, after the infrared generator of the raw material supply barrel is shielded, the controller controls the driving mechanism on the corresponding raw material supply barrel to carry out reciprocating driving, the piston rod of the air cylinder drives the connecting rod to move, the connecting rod drives the front plate to move, the front plate drives the front plate to drive the bulk cargo mechanism to realize reciprocating movement, at the moment, raw materials in the raw material supply barrel fall into the limiting barrel through the discharging pipe and the feeding hole, and then the bulk cargo mechanism realizes reciprocating movement, so that the dispersing net vibrates, the raw materials are dispersed by the holes of the dispersing net and fall into the batching barrel, and after the driving mechanism drives for a period of time, the driving mechanism is controlled by the controller to stop driving, and meanwhile, the driving motor drives the conveying belt;

and sixthly, repeating the steps from the fourth step to the fifth step, uniformly adding ingredients in different raw material supply barrels on the conveyor belt into the ingredient barrels to finish automatic ingredients, and finally conveying the ingredient barrels with the ingredients to the next procedure by the conveyor belt.