CN212994047U - Material loading marching type thin pancake making machine - Google Patents

Abstract

A material loading stepping pancake machine comprises a material loading mechanism, a heating production mechanism, a surface coating mechanism (14), a cutter lifting mechanism and a folding mechanism; compared with the prior art, the invention has the beneficial effects that: the infrared electric heating net heats at constant temperature, so that the heating surface is heated uniformly, and the production process is environment-friendly and sanitary; and the machine has simple structure, good replaceability, low maintenance cost and convenient operation.

Description

Material loading marching type thin pancake making machine

Technical Field

The utility model relates to an automatic material loading marching type thin pancake machine.

Background

The pancake is prepared by spreading and baking pasty dough prepared from coarse grains, so that the pancake is more popular in the market due to the advantages of convenience in carrying and contribution to oral cavity and gastrointestinal digestion. But the traditional production equipment has the characteristic of high technical requirements, and the development of the pancake batch production technology is hindered to a certain extent. The main stream of pancake machines in the current market is mostly baking pan type and traditional drum type. The former has the advantages of simple structure, low cost, multiple branding types and high success rate, but is not suitable for large-scale production due to semi-mechanized equipment; the latter has the advantages of rapid and continuous roller heating, but the problems of low heating energy utilization rate, uneven heating, easy product pollution and large occupied space of the coal stove also make the coal stove not accepted by the market. Therefore, the novel pancake making machine which has high efficiency, uniform heating, sanitary process and excellent yield is made to meet the market demand more and more.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a material loading marching type pancake machine, which aims to solve the problems existing in the past. The technical scheme is as follows:

a material loading stepping type pancake machine comprises a material loading mechanism, a heating production mechanism, a surface coating mechanism, a cutter and a folding mechanism;

a feeding mechanism: the stirring rod extends into the stirring container, and a pipeline at the bottom of the stirring container is connected with the top of the material storage container through a water pump;

heating production mechanism: comprises an annular outer track, an annular inner track and a plurality of heating planes;

the annular outer rail is positioned at the periphery of the annular inner rail; the heating device comprises a plurality of heating planes, wherein the heating planes are mutually independent flaky surfaces, two groups of rollers are arranged on a fixing frame at the bottom of each heating plane, one group of rollers are positioned on an annular outer rail, the other group of rollers are positioned on an annular inner rail, the rollers on the outer rail are coaxially connected with gears, and the gears of the heating planes are connected by chains; a hook head and a push claw which can push the hook head to move forwards and is connected by a four-bar mechanism are arranged on one side of the heating plane, and a rectangular infrared heating plate is arranged below the heating plane;

a surface coating mechanism: the flour coating mechanism mainly comprises a liftable outer box and a horizontally movable inner box; the outer box is a trapezoidal container with an opening at the upper part, two parallel rectangular openings are arranged on the bottom surface of the outer box, the rectangular openings are smaller than the heating plane, and the rectangular openings can respectively correspond to the right upper parts of two adjacent heating planes; the screw nuts on a group of diagonal edges of the outer box are connected with a screw rod, and the screw rod is connected with a motor through a coupler; the other pair of linear guide rail sliding blocks on the angular edges of the outer box is connected with an optical axis fixed on the rack; a pair of parallel mechanical rodless cylinders are arranged on two transverse edges of the top of the outer box; the inner box is in an inverted frustum pyramid shape with openings at the upper and lower parts, the bottom of the inner box is tangent to the bottom of the outer box, and the inner box is fixed on a sliding block of the mechanical rodless cylinder;

the discharge hole of the storage container is connected to the inner box of the surface coating mechanism;

the lifting knife is tangent to the heating plane all the time, and friction wheels are distributed on the lifting knife and connected with a motor through a rotating shaft; a gap for the battercake to pass through is formed between the friction wheel and the lifting knife, and a strip-shaped conveyor belt is closely connected behind the lifting knife; the gap between the friction wheel and the cutter corresponds to the strip-shaped conveyor belt;

the folding machine comprises a conveying sector A, a folding face B, a folding face C and a folding face D; the conveying sector A is in a comb tooth shape and is inserted into the gaps of the strip-shaped conveying belts;

a driven gear is arranged at the shaft end of the conveying sector A and is meshed with a driving gear, and the driving gear is connected with a steering engine;

the folding surface B, the folding surface C and the folding surface D are mutually independent; the shaft ends of the folding surface B, the folding surface C and the folding surface D are respectively connected with a steering engine fixed on the machine frame through gears to control the folding surface B, the folding surface C and the folding surface D to overturn.

A pressure controller is arranged on a pipeline connecting the bottom of the stirring container and the water pump, the pressure controller controls a water level relay of the material storage container through a pipeline liquid pressure value, and an upper liquid level sensor and a lower liquid level sensor of the water level relay are respectively positioned at the top and the bottom of the material storage container; the water level relay controls the operation of the water pump through the water level of the storage container, so that the batter is automatically conveyed from the stirring container to the storage container; the pipeline at the bottom of the storage container is connected with the inlet of the electromagnetic valve, the outlet of the electromagnetic valve is connected with the bent pipeline, and the outlet of the bent pipeline is positioned in the inner box of the coating box.

The four-bar mechanism in the push claws connected by the four-bar mechanism comprises a rear bar, a middle bar, a front bar and a vertical bar; the rear end of the middle rod is movably connected with the lower end of the rear rod through a movable shaft, the front end of the middle rod is movably connected with the upper end of the front rod through a movable shaft, the bottom of the vertical rod is fixed on the middle rod, the top end of the middle rod is connected with the bottom of the fixed plate through a movable shaft, and the number of the four-rod mechanisms is two.

The advantages and effects are as follows:

compared with the prior art, the invention has the beneficial effects that: the mechanical (automatic) supply of the batter is realized, the space required by production is reduced, the production pollution is reduced, the manual labor is reduced to the maximum extent, and the production cost is reduced; the infrared electric heating net is used for heating at constant temperature, so that the heating surface is heated uniformly, and the production process is environment-friendly and sanitary; and the machine has simple structure, good replaceability, low maintenance cost and convenient operation.

Description of the drawings:

the attached drawing is a schematic diagram of an automatic feeding stepping pancake machine.

FIG. 1 is a schematic view of a heating production mechanism;

FIG. 2 is a schematic view of a coating, heating, and conveying mechanism;

FIG. 3 is a schematic view of the overall mechanism;

FIG. 4 is an oblique perspective view of the face coating mechanism;

FIG. 5 is a perspective oblique view of the coating mechanism (from below up);

FIG. 6 is a schematic view of a feed mechanism;

FIG. 7 is a perspective view of the folder;

FIG. 8 is a perspective view of the folder from the other direction (from bottom to top);

FIG. 9 is a partially enlarged schematic view of the heating production mechanism;

FIG. 10 is a schematic structural view of a four-bar linkage;

FIG. 11 is a schematic top view of a conveyor sector A in cooperation with a strip conveyor;

FIG. 12 is a schematic side view of a conveyor sector A in cooperation with a strip conveyor;

labeling: 1-outer rail, 2-inner rail, 3-temperature sensor, 4-heating plane, 5-infrared heating plate, 6-pushing claw, 7-roller, 8-chain, 9-friction wheel, 10-knife, 11-bar conveyor belt, 12-folding machine, 13-feeding mechanism, 14-coating mechanism, 15-coating inner box, 16-lead screw nut, 17-rectangular opening, 18-mechanical rodless cylinder, 19-linear guide rail slide block, 20-optical axis, 21-lead lever, 22-motor, 23-coating outer box, 24-stirring mechanism, 25-stirring rod and 26-stirring container; 27-a water level relay, 28-a pressure controller, 29-a water pump, 30-an upper liquid level sensor, 31-a lower liquid level sensor, 32-a storage container, 33-an electromagnetic valve, 34-a transmission sector A, 35-a gear, 36-a steering engine, 37-a folding plane B, 38-a folding plane C and 39-a folding plane D.

Detailed Description

A material loading stepping type pancake machine comprises a material loading mechanism, a heating production mechanism, a surface coating mechanism 14, a cutter and a folding mechanism;

a feeding mechanism: the stirring rod 25 extends into the stirring container 26 so as to stir the paste, a pipeline at the bottom of the stirring container 26 is connected with the top of the storage container 32 through a pressure controller 28 and a water pump 29 (as shown in fig. 6, the bottom of the stirring container 26 is connected with the top of the storage container 32 through the water pump 29, and the top of the stirring rod 25 is connected with the stirring mechanism 24, that is, the stirring rod 25 is connected with a stirring motor, and the stirring motor is used for controlling the stirring rod to rotate;

heating production mechanism: comprises an annular outer track 1, an annular inner track 2 and a plurality of heating planes 4;

the annular outer track 1 is positioned at the periphery of the annular inner track 2; the heating device comprises a plurality of heating planes 4, wherein the plurality of heating planes 4 are all mutually independent flaky surfaces, two groups of rollers 7 are arranged on a fixing frame 4-1 at the bottom of each heating plane 4, one group of rollers are positioned on an annular outer rail 1 (can roll along the annular outer rail 1), the other group of rollers are positioned on an annular inner rail 2 (can roll along the annular inner rail 2), the rollers 7 on the outer rail 1 are coaxially connected with gears 7-1, and the gears 7-1 of the plurality of heating planes 4 are connected with each other by chains 8 (as shown in fig. 1, all the gears of the heating planes 4 are driven by the chains to be linked, so that the rollers 7 on the outer rail 1 roll along the outer rail 1 under the driving of the gears to complete the moving work of the plurality of heating planes 4); the other sets of rollers 7 only move along their respective tracks. One side of the heating plane 4 is provided with evenly distributed hooks 4-2 and push claws 6 which can push the hooks to move forwards and are connected by a four-bar mechanism, and the hooks are pushed by the push claws 6 so as to realize the stepping movement of the heating plane 4. A rectangular infrared heating plate 5 is arranged below the heating plane 4; install temperature sensor 3 between heating plane 4 and infrared heating board 5, temperature sensor 3 links to each other with the temperature controller, and the heating of infrared heating board 5 is controlled to the temperature controller.

A surface coating mechanism: the flour coating mechanism mainly comprises a liftable outer box 23 and a horizontally movable inner box 15; the outer box 23 is a trapezoidal container with an opening at the upper part (the upper end is large, the lower end is small), two parallel rectangular openings 17 are arranged on the bottom surface of the outer box 23, the rectangular openings 17 are slightly smaller than the heating plane 4, and the rectangular openings 17 can respectively correspond to the positions right above the two adjacent heating planes 4; the lead screw nuts 16 on a group of diagonal edges of the outer box 23 are connected with a screw rod 21, and the screw rod 21 is connected with a motor 22 through a coupler; the other pair of linear guide rail sliding blocks 19 on the diagonal edges of the outer box 23 are connected with an optical axis 20 fixed on the frame (the linear guide rail sliding blocks 19 can move up and down relative to the optical axis 20 by controlling the up and down movement of the outer box 23 through the rotation of a screw lever 21); a pair of parallel mechanical rodless cylinders 18 are arranged on two transverse edges of the top of the outer box 23; the inner box 15 is in an inverted frustum pyramid shape (namely, the upper end is large and the lower end is small) with openings at the upper and lower parts, the bottom of the inner box 15 is tangent with the bottom of the outer box 23, and the inner box 15 is fixed on a slide block of the mechanical rodless cylinder 18; (movement is achieved by a mechanical rodless cylinder 18)

The discharge hole of the storage container 32 is connected to the inner box 15 of the dough coating mechanism;

the cutter lifting device 10 is tangent to the heating plane all the time (as shown in fig. 3, the surface of the cutter lifting surface facing the heating plane is an arc), three friction wheels 9 are evenly distributed on the cutter lifting device 10, and the friction wheels 9 are connected with a motor through a rotating shaft; a gap for the battercake to pass through is formed between the friction wheel 9 and the lifting knife 10, and a strip-shaped conveyor belt 11 is closely connected (corresponding) behind the lifting knife 10; the gap between the friction wheel 9 and the knife 10 corresponds to the strip-shaped conveyor belt 11;

the folding machine comprises a conveying fan surface A34, a folding surface B37, a folding surface C38 and a folding surface D39; the conveying sector A34 is comb-tooth type and is inserted into the gaps of multiple strip-shaped conveying belts (as shown in FIG. 11);

a driven gear 35-1 is arranged at the shaft end of the transmission sector A34, the driven gear 35-1 is meshed with the driving gear 35, and the driving gear 35 is connected with the steering gear 36 (the driving gear 35 is driven by a motor to rotate, so that the transmission sector A34 is turned over);

the folding surface B37, the folding surface C38 and the folding surface D39 are independent from each other, the B surface 37, the C surface 38 and the D surface 39 are respectively one third of the whole conveying surface, namely the width of the whole of the folding surface B37, the folding surface C38 and the folding surface D39 (the width is the axial direction of the driving gear 35 shown in FIG. 7) corresponds to the conveying fan surface A34; the shaft ends (the shaft is perpendicular to the shaft of the driving gear 35) of the folding surface B37, the folding surface C38 and the folding surface D39 are respectively connected with a steering gear 36 fixed on the machine frame through gears (namely, the shaft ends of the folding surface B37, the folding surface C38 and the folding surface D39 are respectively provided with a gear which is meshed with a gear on an output shaft of the steering gear 36), and the folding surface B37, the folding surface C38 and the folding surface D39 are controlled to turn over (specifically, the folding surface a34 is turned over to turn over the pancake onto the folding surface B37, the folding surface C38 and the folding surface D39, then the folding surface B37 turns over the pancake onto the folding surface C38, and the folding surface C38 turns over the pancake onto the folding surface D39, that the turning directions of the folding surface B37, the folding surface C38 and the folding surface D39 are consistent, so that the pancake is finally folded into a three.

A pressure controller 28 is arranged on a pipeline connecting the bottom of the stirring container 26 with a water pump 29, the pressure controller 28 controls a water level relay 27 of a storage container 32 through a pipeline liquid pressure value, and an upper liquid level sensor 30 and a lower liquid level sensor 31 of the water level relay 27 are respectively positioned at the top and the bottom of the storage container 32; the water level relay 27 controls the operation of the water pump 29 by the water level of the storage tank 32, thereby automatically transferring the batter from the agitation vessel 26 to the storage tank 32; the pipeline at the bottom of the storage container 32 is connected with the inlet of an electromagnetic valve 33, the outlet of the electromagnetic valve 33 is connected with a bent pipeline, the outlet of the bent pipeline is positioned in the inner box 15 of the face coating box, and the electromagnetic valve 33 is controlled by another water level relay 27.

The four-bar mechanism in the push claw 6 connected by the four-bar mechanism comprises a rear bar 6-1, a middle bar 6-2, a front bar 6-3 and a vertical bar 6-4; the rear end of the middle rod 6-2 is movably connected with the lower end of the rear rod 6-1 through a movable shaft, the front end of the middle rod 6-2 is movably connected with the upper end of the front rod 6-3 through a movable shaft, the bottom of the vertical rod 6-4 is fixed on the middle rod 6-2, the top end of the middle rod 6-2 is connected with the bottom of the fixed plate through a movable shaft, and the number of the four-bar mechanisms is two (as shown in figure 1). The four-bar mechanism can be controlled manually or electrically, and the electric control is to connect the motor and the upper end of the rear bar 6-1 through a rotating shaft to control the rotation of the rear bar 6-1, or connect the motor and the lower end of the front bar 6-3 through a rotating shaft to control the rotation of the front bar 6-3. As shown in fig. 9, the rear bar 6-1 and the front bar 6-3 are positioned at one side of the middle bar 6-2 or are separately positioned at both sides of the middle bar 6-2. The embodiments of the present application are selected to be located on one side of the center pole 6-2.

The following description of the present invention:

an automatic feeding stepping type pancake machine comprises an automatic feeding mechanism, a heating production mechanism, a dough coating mechanism, a cutter, a transmission mechanism and a folding mechanism. The automatic feeding mechanism adopts the following structure that a stirring rod 25 at the center of a stirring container 26 stirs the face paste, a pipeline at the bottom of the stirring container 26 is sequentially connected with a pressure controller 28, a water pump 29 and the top of a storage container 32, the pressure controller 28 controls a water level relay 27 of the storage container 32 through a pipeline liquid pressure value, and an upper liquid level sensor 30 and a lower liquid level sensor 31 of the water level relay 27 are respectively positioned at the top and the bottom of the storage container 32; the water level relay 27 controls the operation of the water pump 29 by the water level of the storage tank 32, thereby automatically transferring the batter from the agitation vessel 26 to the storage tank 32; the pipeline at the bottom of the storage container 32 is connected with the inlet of an electromagnetic valve 33, the outlet of the electromagnetic valve 33 is connected with a bent pipeline, the outlet of the bent pipeline is positioned in the inner box 15 of the face coating box, and the electromagnetic valve 33 is controlled by another water level relay 27.

The heating production mechanism adopts the following structure, the heating planes 4 are independent flaky surfaces, and two groups of rollers 7 arranged on a fixing frame of the heating planes 4 are respectively driven along the inner track 2 and the outer track 1; the rollers 7 on the outer track 1 are connected by chains 8. The other sets of rollers 7 only move along their respective tracks. The heating plane 4 is provided with evenly distributed hooks on one side, and the hooks are pushed to move forwards by the push claws 6 connected with the four-bar mechanism, so that the stepping movement of the heating plane 4 is realized. The infrared heating plate 5 of a rectangle is installed to heating plane 4 below, installs temperature sensor 3 between heating plane 4 and infrared heating plate 5, and temperature sensor 3 links to each other with the temperature controller, and the heating of infrared heating plate 5 is controlled to the temperature controller.

The flour coating mechanism adopts the following structure, and mainly comprises a liftable outer box 23 and a horizontally movable inner box 15; the outer box 23 is a trapezoidal container with an opening at the upper part, two parallel rectangular openings 17 are arranged on the bottom surface of the outer box 23, the rectangular openings 17 are slightly smaller than the heating plane 4, and the rectangular openings 17 respectively correspond to the positions right above the two adjacent heating planes 4; the lead screw nuts 16 on a group of diagonal edges of the outer box 23 are connected with a screw rod 21, and the screw rod 21 is connected with a motor 22 through a coupler; the other pair of linear guide rail sliding blocks 19 on the angular edges of the outer box 23 are connected with an optical axis 20 fixed on the frame; and a pair of parallel mechanical rodless cylinders 18 are mounted on two transverse edges of the top of the outer box 23. The inner box 15 is in an inverted frustum pyramid shape with openings at the upper and lower parts, the bottom of the inner box 15 is tangent to the bottom of the outer box 23, and the inner box 15 is fixed on a sliding block of the mechanical rodless cylinder 18.

The lifting knife is always tangent to the heating plane, three friction wheels 9 are uniformly distributed on the lifting knife 10, and the friction wheels 9 are connected with a motor through a rotating shaft; the starter knife 10 is followed by a linear conveyor belt 11.

The conveying sector A34 of the folding machine is of a comb tooth type and is inserted into the gap of the strip-shaped conveying belt, and the shaft end of the conveying sector A34 is connected with the steering engine 36 through the gear 35; the folding surfaces B37, C38 and D39 are independent from each other, and the surfaces B37, C38 and D39 are one third of the conveying surface; the shaft ends of the B surface 37, the C surface 38 and the D surface 39 are respectively connected with a steering engine 36 fixed on the frame through gears to control the B37, the C38 and the D surface 39 to turn over.

The specific operation process comprises the following steps: the raw materials are stirred by a stirring container 26 and are input into a storage container 32, the storage container 32 conveys the materials to an inner box 15, the inner box 15 corresponds to a non-rectangular opening 17 at the bottom of an outer box 23 (the bottom of the inner box 15 is blocked), when coating is needed, a four-bar mechanism is started, a claw 6 connected with the four-bar mechanism pushes a hook 4-1 to move forwards, so that the stepping motion of a heating plane 4 is realized, the inner box 15 is moved to the position of the rectangular opening 17, so that the materials are coated on the heating plane 4 through the rectangular opening 17 and are heated by an infrared heating plate 5 to complete a pancake spreading process, after the spread pancake is moved to the position of a lifting knife 10, the pancake is lifted from the heating plane 4 by the lifting knife 10, and is moved to a strip-shaped conveyor belt 11 through a gap between a friction wheel 9 and the lifting knife 10 by the rotation of the friction wheel 9, as shown in figure 11, the pancake on the strip-shaped conveyor belt 11 is moved to a conveying fan surface A34, the steering engine controls the conveying sector A34 to turn the pancake over to the folding plane B37, the folding plane C38 and the folding plane D39,

then, a steering engine of the folding surface B37 is started to control the folding surface B37 to turn over, the pancake is turned over to the folding surface C38 to finish the first one third folding, then the steering engine of the folding surface C38 is started to control the folding surface C38 to turn over, the pancake is folded to the folding surface D39 to finish the second one third folding, then the folding surface D39 is also controlled to turn over, and the folded pancake is turned out of the folding mechanism and placed into a material tray for containing finished products.

Claims (3)

1. The utility model provides a material loading marching type pancake machine which characterized in that: the device comprises a feeding mechanism, a heating production mechanism, a surface coating mechanism (14), a knife lifting mechanism and a folding mechanism;

a feeding mechanism: the stirring rod (25) extends into the stirring container (26), and a pipeline at the bottom of the stirring container (26) is connected with the top of the storage container (32) through a water pump (29);

heating production mechanism: comprises an annular outer track (1), an annular inner track (2) and a plurality of heating planes (4);

the annular outer track (1) is positioned at the periphery of the annular inner track (2); the heating device comprises a plurality of heating planes (4), wherein the plurality of heating planes (4) are mutually independent flaky surfaces, two groups of rollers (7) are arranged on a fixing frame (4-1) at the bottom of each heating plane (4), one group of rollers are positioned on an annular outer rail (1), the other group of rollers are positioned on an annular inner rail (2), the rollers (7) on the outer rail (1) are coaxially connected with gears (7-1), and the gears (7-1) of the plurality of heating planes (4) are connected with each other by chains (8); a hook head (4-2) and a push claw (6) which can push the hook head to move forwards and is connected by a four-bar mechanism are arranged on one side of the heating plane (4), and a rectangular infrared heating plate (5) is arranged below the heating plane (4);

a surface coating mechanism: the flour coating mechanism mainly comprises a liftable outer box (23) and a horizontally movable inner box (15); the outer box (23) is a trapezoidal container with an opening at the upper part, two parallel rectangular openings (17) are arranged on the bottom surface of the outer box (23), the rectangular openings (17) are smaller than the heating planes (4), and the rectangular openings (17) can respectively correspond to the positions right above the two adjacent heating planes (4); the lead screw nuts (16) on one group of diagonal edges of the outer box (23) are connected with the screw rod (21), and the screw rod (21) is connected with the motor (22) through a coupler; the other pair of linear guide rail sliding blocks (19) on the diagonal edges of the outer box (23) is connected with an optical axis (20) fixed on the rack; a pair of parallel mechanical rodless cylinders (18) are arranged on two transverse edges of the top of the outer box (23); the inner box (15) is in an inverted frustum pyramid shape with openings at the upper part and the lower part, the bottom of the inner box (15) is tangent to the bottom of the outer box (23), and the inner box (15) is fixed on a sliding block of the mechanical rodless cylinder (18);

the discharge hole of the storage container (32) is connected to an inner box (15) of the surface coating mechanism;

the lifting knife (10) is tangent to the heating plane all the time, friction wheels (9) are distributed on the lifting knife (10), and the friction wheels (9) are connected with a motor through a rotating shaft; a gap for the battercake to pass through is formed between the friction wheel (9) and the lifting knife (10), and a strip-shaped conveyor belt (11) is closely connected behind the lifting knife (10); the gap between the friction wheel (9) and the knife lifter (10) corresponds to the strip-shaped conveyor belt (11);

the folding machine comprises a conveying sector A (34), a folding plane B (37), a folding plane C (38) and a folding plane D (39); the conveying sector A (34) is in a comb-tooth shape and is inserted into the gaps of the strip-shaped conveying belts;

a driven gear (35-1) is arranged at the shaft end of the transmission sector A (34), the driven gear (35-1) is meshed with a driving gear (35), and the driving gear (35) is connected with a steering engine (36);

the folding surface B (37), the folding surface C (38) and the folding surface D (39) are independent; the shaft ends of the folding surface B (37), the folding surface C (38) and the folding surface D (39) are respectively connected with a steering engine (36) fixed on the machine frame through gears to control the folding surface B (37), the folding surface C (38) and the folding surface D (39) to overturn.

2. The feeding stepping pancake machine according to claim 1, wherein: a pressure controller (28) is arranged on a connecting pipeline between the bottom of the stirring container (26) and the water pump (29), the pressure controller (28) controls a water level relay (27) of the storage container (32) through a pipeline liquid pressure value, and an upper liquid level sensor (30) and a lower liquid level sensor (31) of the water level relay (27) are respectively positioned at the top and the bottom of the storage container (32); the water level relay (27) controls the operation of the water pump (29) through the water level of the storage container (32), so that the paste is automatically conveyed from the stirring container (26) to the storage container (32); the pipeline at the bottom of the storage container (32) is connected with the inlet of the electromagnetic valve (33), the outlet of the electromagnetic valve (33) is connected with the bent pipeline, and the outlet of the bent pipeline is positioned in the inner box (15) of the face coating box.

3. The feeding stepping pancake machine according to claim 1, wherein: the four-bar mechanism in the push claws (6) connected by the four-bar mechanism comprises a rear bar (6-1), a middle bar (6-2), a front bar (6-3) and a vertical bar (6-4); the rear end of the middle rod (6-2) is movably connected with the lower end of the rear rod (6-1) through a movable shaft, the front end of the middle rod (6-2) is movably connected with the upper end of the front rod (6-3) through a movable shaft, the bottom of the vertical rod (6-4) is fixed on the middle rod (6-2), the top end of the middle rod (6-2) is connected with the bottom of the fixed plate through a movable shaft, and the number of the four-rod mechanisms is two.

Images