CN219813105U - Device for pouring viscous material - Google Patents

Abstract

The utility model discloses a device for pouring viscous material, comprising: an intermittent feeding part; the feeding part comprises a lifting cross beam and a plurality of discharging pipes which penetrate through the lifting cross beam and can lift along with the lifting cross beam, the discharging pipes comprise extended pipe sections positioned below the lifting cross beam, the pipe wall of each extended pipe section is provided with a gas injection hole communicated into the pipe, the lifting cross beam descends to enable the discharging pipe to move to a pouring position, and the lifting cross beam ascends to enable the discharging pipe to be far away from the pouring position; the intermittent air supply part is used for intermittently supplying air with pressure, and the output end of the intermittent air supply part comprises a plurality of air outlet ports which are arranged side by side and are communicated with the air injection holes in a one-to-one correspondence mode, and the air with pressure supplied by the air outlet ports is used for cutting off viscous materials positioned in the extending pipe sections. The intermittent feeding part is used for intermittently providing viscous materials, and the lifting cross beam of the feeding part moves downwards to the pouring position and is matched with the intermittent air supply part to provide gas with pressure so as to blow off the materials intermittently provided in the discharging pipe.

Description

Device for pouring viscous material

Technical Field

The utility model relates to the technical field of pouring materials, in particular to equipment for pouring viscous materials.

Background

There is often a need for pouring viscous materials into a mold, for example, when used for producing ice cream with glutinous rice, the glutinous rice needs to be poured into the mold, but the following problems are caused:

(1) The glutinous rice cake has high viscosity, and if the glutinous rice cake is directly poured above the outer part of the mold as common feed liquid, the glutinous rice cake can be stuck to the surface of the mold, cannot fall into the bottom of the mold, and cannot be even poured into ice cream.

(2) The viscosity of the glutinous rice cake is high, and the glutinous rice cake is difficult to break by only closing the valve to stop pouring, and the poured glutinous rice cake can be pulled out of the ice cream mold.

It would therefore be an urgent need for a solution to the technical problem of those skilled in the art to provide a device for pouring viscous materials which avoids the above drawbacks.

Disclosure of Invention

In order to achieve the above purpose, the present utility model provides a device for injecting viscous materials to solve the drawbacks of the prior art, and the specific technical scheme is as follows:

an apparatus for pouring viscous material comprising:

an intermittent feeding part for intermittently providing viscous material, wherein the output end of the intermittent feeding part comprises a plurality of output ports arranged side by side;

the feeding part comprises a lifting cross beam capable of lifting along the vertical direction, and a plurality of discharging pipes which penetrate through the lifting cross beam and can lift along with the lifting cross beam, the plurality of discharging pipes are in one-to-one correspondence with the plurality of output ports, each output port is communicated with an inlet of the corresponding discharging pipe, each discharging pipe comprises an extending pipe section positioned below the lifting cross beam, the pipe wall of each extending pipe section is provided with an air injection hole communicated into the pipe, the lifting cross beam descends to enable the discharging pipe to move to a pouring position, and the lifting cross beam ascends to enable the discharging pipe to be far away from the pouring position;

the intermittent air supply part is used for intermittently supplying air with pressure, the output end of the intermittent air supply part comprises a plurality of air outlet ports which are arranged side by side and are communicated with the air injection holes in a one-to-one correspondence mode, and the air with pressure supplied by the air outlet ports is used for cutting off viscous materials positioned in the extending pipe sections.

Preferably, the gas injection holes are arranged side by side and the openings of the gas injection holes face to the right side of the lifting cross beam, the intermittent gas supply part is arranged on the right side of the lifting cross beam, and the intermittent gas supply part comprises:

the trough is arranged at the left side of the lifting cross beam and is arranged along the length direction parallel to the lifting cross beam, and the bottom of the right side surface of the trough protrudes to the right side to form a cuboid trough in the communicating trough;

the material injection rotating shaft is arranged along the length direction of the cuboid groove in the axial direction, the material injection rotating shaft is rotationally arranged in the cuboid groove, the material injection rotating shaft is tangential to the inner wall of the upper surface, the inner wall of the lower surface and the inner wall of the right surface of the cuboid groove, a plurality of material passing through holes penetrating through the material injection rotating shaft and arranged side by side are arranged on the material injection rotating shaft, the side by side direction is the axial direction of the material injection rotating shaft, a butt joint hole communicated with the material passing through holes and penetrating through half of the material injection rotating shaft is arranged in the axial direction of each material passing through hole, a plurality of butt joint holes are arranged side by side and are axially arranged in the material injection rotating shaft, the front end part of the material injection rotating shaft extends out of the front surface of the cuboid groove, the material injection rotating shaft is provided with a material suction position and a material injection position, the material passing through holes are arranged in the horizontal direction and the openings of the left end of the material injection rotating shaft are communicated with the inner wall of the right surface of the cuboid groove, the butt joint holes are arranged in the vertical direction, and the butt joint holes are arranged in the vertical direction and the vertical direction of the material injection rotating shaft is arranged in the vertical direction and the butt joint hole is arranged in the vertical direction of the material injection groove;

the piston of the steering cylinder is fixedly arranged on the front surface of the trough, the piston of the steering cylinder is arranged along the vertical direction, the free end of the piston is connected with one side end part of an L-shaped transmission body, the other side end part of the L-shaped transmission body is connected with the front end part of the material injection rotating shaft, the piston of the steering cylinder is provided with a contraction position and an extension position, the material injection rotating shaft is positioned at the material injection position when in the contraction position, and the material injection rotating shaft is positioned at the material suction position when in the extension position;

the injection device comprises a plurality of injectors which are arranged side by side along the vertical direction, wherein the side by side direction is the length direction of a cuboid groove, the injectors are fixed above the cuboid groove, the outlet of each injector penetrates through the upper surface of the cuboid groove and corresponds to the material passing through holes or the butt joint holes one by one and can be communicated with the material injecting rotating shaft, the injection device further comprises a material sucking and injecting cylinder positioned above the injectors, the free end of a piston of the material sucking and injecting cylinder is connected with the upper side of a transfer rod, and the transfer rod extends along the length direction of the cuboid groove and is fixedly connected with the upper end of an injection piston of each injector at the lower side of the transfer rod;

the material feeding device comprises a plurality of material feeding hoses which are arranged side by side, wherein the side by side direction is the length direction of a cuboid groove, the material feeding hoses are in one-to-one correspondence with the material feeding through holes, one ends of the material feeding hoses penetrate through the lower surface of the cuboid groove and can be communicated with the corresponding material feeding through holes, and the other ends of the material feeding hoses are provided with a plurality of output ports which are arranged side by side;

the control module is electrically connected with the steering cylinder and the sucking and injecting cylinder, the butt joint hole is communicated with the outlet of the injector when the sucking position is adopted, and the upper opening of the feeding through hole is communicated with the outlet of the injector and the lower opening of the feeding through hole is communicated with the injecting hose when the injecting position is adopted.

Preferably, the discharging pipe comprises a butt joint section positioned above the lifting cross beam, and the other end of each material injection hose is in butt joint communication with the upper opening of the butt joint section of the corresponding discharging pipe.

Preferably, the intermittent air supply section includes:

the wall surface of the gas storage tank, which faces the discharge pipe, is provided with a plurality of through air holes communicated with the inside of the gas storage tank, the plurality of through air holes are arranged side by side, and the side by side direction is the length direction of the lifting cross beam;

the ventilation pipelines are correspondingly communicated with the through air holes one by one, and each ventilation pipeline is provided with an electromagnetic valve;

one end of each of the plurality of air injection hoses is correspondingly communicated with the output end of the ventilation pipeline, and the other end of each of the plurality of air injection hoses is provided with a plurality of air outlet ports communicated with the air injection holes;

the control module is electrically connected with the electromagnetic valves.

Preferably, a check valve is mounted on each of the vent pipes at a position downstream of the solenoid valve, and a gas flow direction of the check valve is a flow direction from the gas tank to the gas injection hose.

Preferably, the lifting device further comprises a lifting air cylinder, wherein the lifting air cylinder is located above the lifting cross beam, the free end of a piston of the lifting air cylinder is connected with the lifting cross beam, the control module is electrically connected with the lifting air cylinder, two ends of the length direction of the lifting cross beam are provided with opposite guide rails along the vertical direction, two ends of the lifting cross beam are respectively arranged on the corresponding guide rails in a sliding mode, a plurality of through holes penetrating the lifting cross beam and being arranged side by side are formed in the lifting cross beam, the side by side direction is the length direction, and a discharging pipe arranged along the vertical direction is arranged in each through hole.

Preferably, the lifting device further comprises a movable carrier, two support plates of the movable carrier are arranged back and forth along the length direction of the lifting cross beam, the front end and the rear end of the trough and the front end and the rear end of the cuboid trough are respectively fixedly arranged on the two support plates, a space formed between the two support plates is used for placing part of the material injection hose, the two guide rails are fixedly connected to the trough body of the trough through a horizontal plate body, and the front end and the rear end of the air storage tank are fixedly connected to the trough body of the trough through a horizontal rod.

Preferably, two moving wheels are mounted below each supporting plate.

Preferably, the control module is a PLC controller.

The device for pouring the viscous material provided by the utility model has the following technical effects:

the intermittent feeding part is used for intermittently providing viscous materials, and the lifting cross beam of the feeding part moves downwards to the pouring position and is matched with the intermittent air supply part to provide gas with pressure so as to blow off the materials intermittently provided in the discharging pipe. Solves the defects existing in the prior art.

Preferably, the device can realize automatic material injection, in particular: the material tank is filled with sticky materials, such as glutinous rice flour, the control module controls the steering cylinder to an extending position, at the moment, the control module controls the material sucking and injecting cylinder to move upwards to drive the injection piston of the injector to move upwards so as to suck the glutinous rice flour into the injector, then the control module controls the steering cylinder to a contracting position, at the moment, the material sucking and injecting cylinder moves downwards to fully press the glutinous rice flour of the injector, at the moment, the control module controls the lifting cylinder to move downwards so as to enable the extending pipe section of the discharging pipe to be inserted into the die, and glutinous rice flour is further poured into the die; after the injector pushes out the glutinous rice in the injector downwards, the control module controls the electromagnetic valve to be opened, so that the pressurized gas in the gas storage tank blows off the glutinous rice surface in time, and the filling is completed. The amount of this primed wafer will depend on the amount of wafer that is pushed out of the syringe.

Preferably, a one-way valve is arranged to prevent excessive polished glutinous rice from entering the gas injection pipeline.

Preferably, a moving wheel is arranged to move on a continuous production line so as to repeatedly and automatically realize the injection of materials.

Drawings

FIG. 1 is a schematic view of one embodiment of an apparatus for pouring viscous material according to the present utility model;

fig. 2 is a radial cross-sectional view of the injection shaft.

The reference numerals in fig. 1-2 are as follows:

the lifting beam is 1, the discharging pipe is 2, the stretching pipe section is 3, the trough is 4, the cuboid trough is 5, the material injection rotating shaft is 6, the material passing through hole is 7, the butt joint hole is 8, the steering cylinder is 9, the piston is 10, the 11L-shaped transmission body is 12, the injector is 13, the material sucking and injecting cylinder is 13, the material injecting hose is 14, the control module is 15, the air storage tank is 16, the ventilation pipeline is 17, the electromagnetic valve is 18, the check valve is 19, the lifting cylinder is 20, the supporting plate is 21, and the wheel is 22 to move.

Detailed Description

1-2, FIG. 1 is a schematic view of one embodiment of an apparatus for pouring viscous material according to the present utility model; fig. 2 is a radial sectional view of the injection shaft 6.

The present utility model provides an apparatus for pouring viscous material, in combination with fig. 1-2, comprising:

an intermittent feeding part for intermittently providing viscous material, wherein the output end of the intermittent feeding part comprises a plurality of output ports arranged side by side;

the feeding part comprises a lifting cross beam 1 capable of lifting along the vertical direction and a plurality of discharging pipes 2 which penetrate through the lifting cross beam 1 and can lift along with the lifting cross beam, the plurality of discharging pipes 2 are in one-to-one correspondence with the plurality of output ports, each output port is communicated with an inlet of the corresponding discharging pipe 2, the discharging pipe 2 comprises an extending pipe section 3 positioned below the lifting cross beam 1, the pipe wall of each extending pipe section 3 is provided with a gas injection hole communicated into the pipe, the lifting cross beam 1 descends to enable the discharging pipe 2 to move to a pouring position, and the lifting cross beam 1 ascends to enable the discharging pipe 2 to be far away from the pouring position;

the intermittent air supply part is used for intermittently supplying air with pressure, the output end of the intermittent air supply part comprises a plurality of air outlet ports which are arranged side by side and are communicated with the air injection holes in a one-to-one correspondence mode, and the air with pressure supplied by the air outlet ports is used for cutting off the viscous material in the extending pipe section 3.

The intermittent feeding part is used for intermittently providing viscous materials, and the lifting beam 1 of the feeding part moves downwards to a pouring position and is matched with the intermittent feeding part to provide gas with pressure so as to blow off the intermittently provided materials in the discharging pipe. Solves the defects existing in the prior art.

As shown in fig. 1-2, in a specific embodiment, the plurality of gas injection holes are arranged side by side and the openings of the gas injection holes face to the right side of the lifting beam 1, the intermittent gas supply part is arranged on the right side of the lifting beam 1, and the intermittent gas supply part comprises:

a trough 4 arranged at the left side of the lifting cross beam 1 and arranged along the length direction parallel to the lifting cross beam 1, wherein the bottom of the right side surface of the trough 4 protrudes to the right side to form a cuboid trough 5 communicated with the inside of the trough 4;

the material injection rotating shaft 6 is arranged along the length direction of the cuboid groove 5 in the axial direction, the material injection rotating shaft 6 is rotationally arranged in the cuboid groove 5, the material injection rotating shaft 6 is tangential to the inner wall of the upper surface, the inner wall of the lower surface and the inner wall of the right surface of the cuboid groove 5, a plurality of material passing through holes 7 penetrating through the material injection rotating shaft 6 and arranged side by side are formed in the material injection rotating shaft 6, the side by side direction is the axial direction of the material injection rotating shaft 6, a butt joint hole 8 which is communicated with the material passing through holes 7 and penetrates through the cuboid groove 6 is formed in the axial direction of each material passing through hole 6, a plurality of butt joint holes 8 are arranged side by side and are arranged in the axial direction of the material injection rotating shaft 6, the front end part of the material injection rotating shaft 6 extends out of the front surface of the cuboid groove 5, the material passing through holes 7 are arranged in the horizontal direction and are communicated with the opening of the left end of the material passing through holes 7 when the material injection rotating shaft 6 is in the material sucking position, the butt joint holes 8 are arranged in the vertical direction, and the opening of the cuboid groove 5 is arranged in the vertical direction, and the butt joint hole 8 is arranged in the vertical direction, and the opening of the butt joint hole is in the direction of the butt joint hole is in the vertical direction of the inner wall 5;

the steering cylinder 9 is fixedly arranged on the front surface of the trough 4, a piston 10 of the steering cylinder 9 is arranged along the vertical direction, the free end of the piston 10 is connected with one end part of an L-shaped transmission body 11, the other end part of the L-shaped transmission body 11 is connected with the front end part of the material injection rotating shaft 6, the piston 10 of the steering cylinder 9 is provided with a contraction position and an extension position, the material injection rotating shaft 6 is positioned at the material injection position when in the contraction position, and the material injection rotating shaft 6 is positioned at the material suction position when in the extension position;

the injectors 12 are arranged side by side along the vertical direction, the side by side direction is the length direction of the cuboid groove 5, the injectors 12 are fixed above the cuboid groove 5, the outlet of each injector 12 penetrates through the upper surface of the cuboid groove 5 and corresponds to the material feeding through hole 7 or the butt joint hole 8 one by one and can be communicated with the material feeding rotating shaft 6, the injector further comprises a material sucking and injecting cylinder 13 positioned above the injectors 12, the free end of a piston of the material sucking and injecting cylinder 13 is connected with the upper side of a transmission rod, the transmission rod extends along the length direction of the cuboid groove 5, and the lower side of the transmission rod is fixedly connected with the upper end of an injection piston of each injector 12;

a plurality of material injection hoses 14 arranged side by side, wherein the side by side direction is the length direction of the cuboid groove 5, the plurality of material injection hoses 14 are in one-to-one correspondence with the plurality of material feeding through holes 7, one ends of the plurality of material injection hoses 14 penetrate through the lower surface of the cuboid groove 5 and can be communicated with the corresponding material feeding through holes 7, and the other ends of the plurality of material injection hoses 14 are provided with a plurality of output ports arranged side by side;

the control module 15 is electrically connected with the steering cylinder 9 and the sucking and injecting cylinder 13, the butt joint hole 8 is communicated with the outlet of the injector 12 when in the sucking position, and the upper opening of the feeding through hole 7 is communicated with the outlet of the injector 12 and the lower opening is communicated with the injecting hose 14 when in the injecting position.

Wherein, the discharging pipe 2 comprises a butt joint section positioned above the lifting beam 1, and the other end of each material injection hose 14 is in butt joint communication with the upper opening of the butt joint section of the corresponding discharging pipe 2.

Further, the intermittent air supply section includes:

the gas storage tank 16, the wall surface of the gas storage tank 16 facing the discharge pipe 2 is provided with a plurality of through air holes communicated with the inside of the gas storage tank 16, the plurality of through air holes are arranged side by side, and the side by side direction is the length direction of the lifting cross beam 1;

the ventilation pipelines 17 are communicated with the through air holes in a one-to-one correspondence manner, and each ventilation pipeline 17 is provided with a solenoid valve 18;

one ends of the air injection hoses are correspondingly communicated with the output end of the ventilation pipeline 17 one by one, and the other ends of the air injection hoses form a plurality of air outlet ports communicated with the air injection holes;

the control module 15 is electrically connected to the plurality of solenoid valves 18.

In a specific embodiment, a check valve 19 is mounted on each ventilation pipe 17 at a position downstream of the electromagnetic valve 18, and the flow direction of the gas from the gas storage tank 16 to the gas injection hose is the flow direction of the gas from the check valve 19.

A one-way valve 19 is arranged to prevent the excessive polished glutinous rice from entering the gas injection pipeline.

Further, the lifting device further comprises a lifting air cylinder 20, wherein the lifting air cylinder is located above the lifting cross beam 1, the free end of a piston of the lifting air cylinder 20 is connected with the lifting cross beam 1, the control module 15 is electrically connected with the lifting air cylinder 20, two ends of the lifting cross beam 1 in the length direction are provided with opposite guide rails along the vertical direction, two ends of the lifting cross beam 1 are respectively arranged on the corresponding guide rails in a sliding manner, a plurality of through holes which penetrate through the lifting cross beam 1 and are arranged side by side are formed in the lifting cross beam 1, the side by side direction is the length direction, and a discharging pipe 2 which is arranged along the vertical direction is arranged in each through hole.

The device can realize automatic material injection, and is specific: the trough 4 is filled with sticky materials, such as sticky rice, the control module 15 controls the steering cylinder 9 to an extending position, at the moment, the control module 15 controls the sucking and injecting cylinder 13 to move upwards to drive the injection piston of the injector 12 to move upwards so as to suck the sticky rice into the injector 12, then the control module 15 controls the steering cylinder 9 to a contracting position, at the moment, the sucking and injecting cylinder 13 moves downwards so as to press the sticky rice of the injector 12 out completely, at the moment, the control module 15 controls the lifting cylinder 20 to move downwards so as to enable the extending pipe section 3 of the discharging pipe 2 to be inserted into a mould, and then the sticky rice is poured into the mould; after the injector 12 pushes out the glutinous rice in it completely downwards, the control module 15 controls the electromagnetic valve 18 to open, so that the pressurized gas in the gas storage tank 16 blows off the glutinous rice surface in time, and the filling is completed. The amount of this primed wafer depends on the amount of wafer pushed out within the syringe 12.

In a specific embodiment, the device further comprises a mobile carrier, two support plates 21 of the mobile carrier are arranged back and forth along the length direction of the lifting beam 1, the front end and the rear end of the trough 4 and the front end and the rear end of the cuboid trough 5 are respectively fixedly arranged on the two support plates 21, a space formed between the two support plates 21 is used for placing part of the material injection hose 14, the two guide rails are fixedly connected to the trough body of the trough 4 through a horizontal plate body, and the front end and the rear end of the air storage tank 16 are fixedly connected to the trough body of the trough 4 through a horizontal rod.

Further, two moving wheels 22 are installed under each of the supporting plates 21.

A moving wheel 22 is provided to facilitate movement on a continuous production line to repeatedly and automatically effect injection of material.

In a specific embodiment, the control module 15 is a PLC controller.

The material pipe is made of stainless steel, so that the material pipe is prevented from being deformed due to scalding. The glutinous rice cake is poured into the bottom of the ice cream mold, namely the head of the ice cream by lifting. The check valve 19 prevents the reverse flow of the glutinous rice cake to block the compressed air outlet passage or to the air tank 16. The compressed air is stored by the air storage tank 16, so that the pressure of the compressed air fed into each discharging pipe 2 is uniform.

Claims (9)

1. An apparatus for pouring viscous material, comprising:

an intermittent feeding part for intermittently providing viscous material, wherein the output end of the intermittent feeding part comprises a plurality of output ports arranged side by side;

the feeding part comprises a lifting cross beam capable of lifting along the vertical direction, and a plurality of discharging pipes which penetrate through the lifting cross beam and can lift along with the lifting cross beam, the plurality of discharging pipes are in one-to-one correspondence with the plurality of output ports, each output port is communicated with an inlet of the corresponding discharging pipe, each discharging pipe comprises an extending pipe section positioned below the lifting cross beam, the pipe wall of each extending pipe section is provided with an air injection hole communicated into the pipe, the lifting cross beam descends to enable the discharging pipe to move to a pouring position, and the lifting cross beam ascends to enable the discharging pipe to be far away from the pouring position;

the intermittent air supply part is used for intermittently supplying air with pressure, the output end of the intermittent air supply part comprises a plurality of air outlet ports which are arranged side by side and are communicated with the air injection holes in a one-to-one correspondence mode, and the air with pressure supplied by the air outlet ports is used for cutting off viscous materials positioned in the extending pipe sections.

2. The apparatus for injecting viscous material according to claim 1, wherein the plurality of air injecting holes are arranged side by side with openings facing the right side of the elevation cross member, the intermittent air supply portion is arranged on the right side of the elevation cross member, and the intermittent air supply portion includes:

the trough is arranged at the left side of the lifting cross beam and is arranged along the length direction parallel to the lifting cross beam, and the bottom of the right side surface of the trough protrudes to the right side to form a cuboid trough in the communicating trough;

the material injection rotating shaft is arranged along the length direction of the cuboid groove in the axial direction, the material injection rotating shaft is rotationally arranged in the cuboid groove, the material injection rotating shaft is tangential to the inner wall of the upper surface, the inner wall of the lower surface and the inner wall of the right surface of the cuboid groove, a plurality of material passing through holes penetrating through the material injection rotating shaft and arranged side by side are arranged on the material injection rotating shaft, the side by side direction is the axial direction of the material injection rotating shaft, a butt joint hole communicated with the material passing through holes and penetrating through half of the material injection rotating shaft is arranged in the axial direction of each material passing through hole, a plurality of butt joint holes are arranged side by side and are axially arranged in the material injection rotating shaft, the front end part of the material injection rotating shaft extends out of the front surface of the cuboid groove, the material injection rotating shaft is provided with a material suction position and a material injection position, the material passing through holes are arranged in the horizontal direction and the openings of the left end of the material injection rotating shaft are communicated with the inner wall of the right surface of the cuboid groove, the butt joint holes are arranged in the vertical direction, and the butt joint holes are arranged in the vertical direction and the vertical direction of the material injection rotating shaft is arranged in the vertical direction and the butt joint hole is arranged in the vertical direction of the material injection groove;

the piston of the steering cylinder is fixedly arranged on the front surface of the trough, the piston of the steering cylinder is arranged along the vertical direction, the free end of the piston is connected with one side end part of an L-shaped transmission body, the other side end part of the L-shaped transmission body is connected with the front end part of the material injection rotating shaft, the piston of the steering cylinder is provided with a contraction position and an extension position, the material injection rotating shaft is positioned at the material injection position when in the contraction position, and the material injection rotating shaft is positioned at the material suction position when in the extension position;

the injection device comprises a plurality of injectors which are arranged side by side along the vertical direction, wherein the side by side direction is the length direction of a cuboid groove, the injectors are fixed above the cuboid groove, the outlet of each injector penetrates through the upper surface of the cuboid groove and corresponds to the material passing through holes or the butt joint holes one by one and can be communicated with the material injecting rotating shaft, the injection device further comprises a material sucking and injecting cylinder positioned above the injectors, the free end of a piston of the material sucking and injecting cylinder is connected with the upper side of a transfer rod, and the transfer rod extends along the length direction of the cuboid groove and is fixedly connected with the upper end of an injection piston of each injector at the lower side of the transfer rod;

the material feeding device comprises a plurality of material feeding hoses which are arranged side by side, wherein the side by side direction is the length direction of a cuboid groove, the material feeding hoses are in one-to-one correspondence with the material feeding through holes, one ends of the material feeding hoses penetrate through the lower surface of the cuboid groove and can be communicated with the corresponding material feeding through holes, and the other ends of the material feeding hoses are provided with a plurality of output ports which are arranged side by side;

the control module is electrically connected with the steering cylinder and the sucking and injecting cylinder, the butt joint hole is communicated with the outlet of the injector when the sucking position is adopted, and the upper opening of the feeding through hole is communicated with the outlet of the injector and the lower opening of the feeding through hole is communicated with the injecting hose when the injecting position is adopted.

3. The apparatus for pouring viscous material according to claim 2, wherein the discharge pipe includes a docking section above the lifting beam, the other end of each of the pouring hoses being in docking communication with an upper opening of the docking section of the corresponding discharge pipe.

4. An apparatus for pouring viscous material according to claim 3, wherein the intermittent air supply section includes:

the wall surface of the gas storage tank, which faces the discharge pipe, is provided with a plurality of through air holes communicated with the inside of the gas storage tank, the plurality of through air holes are arranged side by side, and the side by side direction is the length direction of the lifting cross beam;

the ventilation pipelines are correspondingly communicated with the through air holes one by one, and each ventilation pipeline is provided with an electromagnetic valve;

one end of each of the plurality of air injection hoses is correspondingly communicated with the output end of the ventilation pipeline, and the other end of each of the plurality of air injection hoses is provided with a plurality of air outlet ports communicated with the air injection holes;

the control module is electrically connected with the electromagnetic valves.

5. The apparatus for injecting viscous material as defined in claim 4, wherein a check valve is installed at a position downstream of the solenoid valve in each of the vent lines, and a flow direction of gas of the check valve is a flow direction from the gas tank to the gas injection hose.

6. The apparatus for injecting viscous material as defined in claim 4, further comprising a lifting cylinder disposed above the lifting beam, wherein a free end of a piston of the lifting cylinder is connected to the lifting beam, the control module is electrically connected to the lifting cylinder, two opposite vertical guide rails are disposed at two ends of a length direction of the lifting beam, the two ends of the lifting beam are slidably disposed on the corresponding guide rails, and a plurality of through holes extending therethrough and disposed side by side are disposed on the lifting beam, the side by side direction being the length direction, and a discharge pipe disposed in a vertical direction is disposed in each of the through holes.

7. The apparatus for injecting viscous material as defined in claim 6, further comprising a moving carrier, two support plates of the moving carrier being disposed back and forth along a longitudinal direction of the lifting beam, front and rear ends of the trough and the rectangular parallelepiped trough being fixedly disposed on the two support plates, respectively, a space formed between the two support plates being for placing a part of the injection hose, both of the guide rails being fixedly connected to the trough body of the trough through a horizontal plate, and front and rear ends of the air tank being fixedly connected to the trough body of the trough through a horizontal rod.

8. An apparatus for pouring viscous material according to claim 7, characterized in that two moving wheels are mounted under each support plate.

9. The apparatus for pouring viscous material according to claim 2, wherein the control module is a PLC controller.