CN219789083U - Injection molding processing feed mechanism - Google Patents

Abstract

The utility model provides an injection molding processing feed mechanism, includes supporting base, lower material loading groove, soft feed pipe, goes up the cabin of packing, fixed stay piece, lifting driving motor, packing vibrations piece, driven gear, driving gear, draw Cheng Danhuang, driven vibrations piece, vibrations slider, initiative vibrations dish, vibrations motor, it has the packing groove to go up the cabin lower part of packing, and the packing vibrations piece suits with the packing groove, and the packing groove is connected to the packing vibrations piece, and the packing vibrations piece rotates in the inside of packing groove, and the inside inner feed groove that has of packing vibrations piece, inner feed groove upper portion have the feed mouth, and packing vibrations piece lower part has the feeding connection platform, and packing vibrations piece side has the rotation connection platform, and the packing groove side has the rotation connection groove, rotates the connection platform and suits with the rotation connection groove, rotates the connection groove.

Description

Injection molding processing feed mechanism

Technical Field

The utility model relates to the field of injection molding, in particular to an injection molding processing feeding mechanism.

Background

The prior art patent (publication number: CN 214026873U) proposes an injection molding processing feeding mechanism, which comprises a barrel, one side of the barrel is provided with a motor, the output shaft of the motor penetrates through the barrel and extends to the inside of the barrel, the motor output shaft is positioned in the barrel and is provided with a stirring rod, the outer side of the motor is sleeved with a cam, the inside of the barrel is provided with a first baffle, the center of the first baffle is inserted with a push rod matched with the cam, the outer side of the push rod is sleeved with a first spring which drives the stirring rod to rotate through the motor, various plastic particles are uniformly mixed, scattered and mixed, and further plastic particles enter the bottom of the barrel through a blanking hole and a guide hole, however, the device is characterized in that the top of the barrel is provided with a hopper, and the hopper which is communicated with the inside of the barrel and is positioned at the upper side need to perform climbing operation when filling, so as to influence the adding efficiency.

Disclosure of Invention

The utility model aims at the defects in the prior art, and provides the injection molding processing feeding mechanism which drives the lifting driving motor to drive the driven gear to rotate when injection molding processing feeding is performed, so that the upper filling cabin can ascend or descend, and when filling is performed in the upper filling cabin, the upper filling cabin can descend, so that an operator can conveniently fill the upper filling cabin, the feeding is convenient, the climbing operation of the operator is not needed, the safety is high, and the filling efficiency is high.

The utility model aims at realizing the following technical scheme:

the utility model provides an injection moulding processing feed mechanism, includes supporting base, lower last silo, soft feed pipe, goes up the cabin of packing, fixed stay piece, lifting driving motor, packing vibrations piece, driven gear, driving gear, draw together Cheng Danhuang, driven vibrations piece, vibrations slider, initiative vibrations dish, vibrations motor, go up the cabin lower part of packing and have the packing groove, packing vibrations piece suits with the packing groove, packing vibrations piece connects the packing groove, packing vibrations piece is at the inside rotation of packing groove, packing vibrations piece inside has interior feed tank, interior feed tank upper portion has the feed mouth, packing vibrations piece lower part has the upper feed connecting table, packing vibrations piece side has the rotation connecting table, the packing groove side has the rotation connecting groove, the rotation connecting table suits with the rotation connecting groove, the rotation connecting table rotates in the rotation connecting groove inside, the rotation connecting table that is located packing vibrations piece right side has the spring fixed slot, driven vibrations piece suits with the rotation connecting groove, driven vibrations piece is connected with the rotation connecting groove that is located on the cabin right side.

The driven vibrations piece rotates in rotating the spread groove inside, driven vibrations piece side and draw together Cheng Danhuang middle part fixed connection, draw together Cheng Danhuang outside and rotate the inside fixed connection of spread groove, driven vibrations piece side has driven spout, go up the cabin side of packing and have vibrations motor groove, the slider mount table, vibrations motor groove is located slider mount table upside, vibrations slider suits with the slider mount table, vibrations slider connects the slider mount table, vibrations slider slides in the inside of slider mount table, vibrations slider bottom has driven vibrations boss, driven vibrations boss suits with driven spout, driven spout is connected to driven vibrations boss, driven vibrations boss slides in driven spout inside.

Advantageous effects

1. When the injection molding processing feeding is performed, the lifting driving motor is driven to drive the driven gear to rotate, so that the upper filling cabin can ascend or descend, and when the inside of the upper filling cabin is filled, the upper filling cabin can descend, so that an operator can conveniently fill the upper filling cabin, the feeding is convenient, the climbing operation of the operator is not needed, the safety is high, and the filling efficiency is high.

2. According to the utility model, the filling vibration block is driven by the vibration motor to continuously keep vibration in the feeding process, so that injection molding raw materials contained in the upper filling cabin are continuously disturbed to continuously fall into the inner feeding groove, the continuous vibration of the filling vibration block can keep the injection molding raw materials not to be blocked and blocked due to mutual extrusion in the falling process, and the smoothness of the feeding is ensured.

3. The packing vibration block is fixedly arranged in the spring fixing groove so that when the upper packing cabin falls to the limit position, the packing vibration block can be pulled by the soft feed pipe to rotate the upper feed port to the right side of the packing groove, at the moment, the residual raw materials in the upper packing cabin can not continuously fall, the existence of the Cheng Danhuang can allow the packing vibration block to rotate to the right side in a larger range without limiting the stroke by driving mechanisms such as the vibration slide block, the driving vibration disk and the like, and the tightness of the packing of the upper packing cabin is ensured.

4. The inner feed trough adopts the design of gradually narrowing from the middle part to the two sides, so that injection molding raw materials falling into the inner feed trough are collected in the upper feed connecting table, the injection molding raw materials are prevented from remaining on the two sides of the inner feed trough, and the discharging process of the device is more complete.

Drawings

Fig. 1 is a schematic structural view of an injection molding processing feeding mechanism according to the present utility model.

Fig. 2 is a side cross-sectional view of an injection molding feeding mechanism according to the present utility model.

Fig. 3 is an enlarged view of fig. 1, partially, of fig. 2 according to the present utility model.

Fig. 4 is an enlarged view of fig. 2, partially illustrating the present utility model.

Fig. 5 is a partial explosion diagram of an injection molding processing feeding mechanism according to the utility model.

Fig. 6 is a schematic structural view of the upper packing compartment according to the present utility model.

Fig. 7 is a schematic structural diagram of a filler vibration block according to the present utility model.

Description of the embodiments

The utility model is described in further detail below with reference to the drawings and examples:

examples

The injection molding processing feeding mechanism comprises a supporting base 1, a lower feeding groove 3, a soft feeding pipe 4, an upper filling cabin 5, a fixed supporting block 6, a lifting driving motor 7, a filling vibration block 9, a driven gear 18, a driving gear 19, a bracket Cheng Danhuang, a driven vibration block 24, a vibration sliding block 26, a driving vibration disk 28 and a vibration motor 29, wherein the lower part of the upper filling cabin 5 is provided with a filling groove 8, the filling vibration block 9 is matched with the filling groove 8, the filling vibration block 9 is connected with the filling groove 8, the filling vibration block 9 rotates in the filling groove 8, the filling vibration block 9 is driven by the vibration motor 29 to continuously keep vibration in the feeding process, so that injection molding raw materials contained in the upper filling cabin 5 continuously fall into the inner feeding groove 10 due to continuous disturbance, the continuous vibration of the filling vibration block 9 can keep the injection molding raw materials from being blocked and causing unsmooth falling due to mutual extrusion in the falling process, ensuring the smoothness of the blanking, the inner feeding groove 10 is arranged in the filler vibration block 9, the inner feeding groove 10 adopts a design of gradually narrowing from the middle part to two sides, so that injection molding raw materials falling into the inner feeding groove 10 are collected in the upper feeding connecting table 12, the injection molding raw materials are prevented from remaining at two sides of the inner feeding groove 10, the blanking process of the device is more complete, the upper part of the inner feeding groove 10 is provided with an upper feeding opening 11, the lower part of the filler vibration block 9 is provided with an upper feeding connecting table 12, the side surface of the filler vibration block 9 is provided with a rotary connecting table 22, the side surface of the filler groove 8 is provided with a rotary connecting groove 23, the rotary connecting table 22 is adapted to the rotary connecting groove 23, the rotary connecting table 22 rotates in the rotary connecting groove 23, the rotary connecting table 22 positioned at the right side of the filler vibration block 9 is internally provided with a spring fixing groove 21, the driven vibration block 24 is adapted to the rotary connecting groove 23, and the driven vibration block 24 is connected with the rotary connecting groove 23 positioned on the right side of the upper packing compartment 5.

Examples

According to the utility model, the driven vibration block 24 rotates in the rotary connecting groove 23, the side surface of the driven vibration block 24 is fixedly connected with the middle part of the bracket Cheng Danhuang, the outer side of the bracket Cheng Danhuang is fixedly connected with the inside of the rotary connecting table 22, the bracket spring 20 is fixedly arranged in the spring fixing groove 21, when the upper filling cabin 5 falls to the limit position, the filling vibration block 9 can be pulled by the soft feed pipe 4 to rotate the upper feed port 11 to the right side of the filling groove 8, at the moment, the residual raw materials in the upper filling cabin 5 can not continuously fall, the existence of the bracket spring 20 can allow the filling vibration block 9 to rotate to the right side to a larger extent without being limited by driving mechanisms such as the vibration sliding block 26, the driving vibration disk 28 and the like, the sealing property of the upper filling cabin 5 is ensured, the side surface of the driven vibration block 24 is provided with the driven sliding groove 25, the side surface of the upper filling cabin 5 is provided with the vibration motor groove 31 and the sliding block mounting table 14, the vibration motor groove 31 is positioned on the upper side of the sliding block mounting table 14, the vibration sliding block 26 is matched with the sliding block mounting table 14, the vibration sliding block 26 is connected with the sliding block mounting table 14, the sliding block 26 slides in the sliding table 14, and is provided with the driven sliding boss 27, and is matched with the driven sliding groove 27, and the driven sliding boss 27 is matched with the driven sliding groove 27.

Examples

The upper part of the vibration sliding block 26 is provided with an active sliding groove 30, the front part of the active vibration disk 28 is provided with an active vibration boss 32, the active vibration boss 32 is adapted to the active sliding groove 30, the active vibration boss 32 is connected with the active sliding groove 30, the active vibration boss 32 slides in the active sliding groove 30, the side surface of the vibration motor groove 31 is fixedly connected with a vibration motor 29, the front part of the vibration motor 29 is fixedly connected with the active vibration disk 28, and the front part of the upper packing cabin 5 is fixedly connected with a fixed supporting block 6.

Examples

According to the utility model, the lifting driving motor 7 is fixedly connected to the rear part of the fixed supporting block 6, when injection molding processing feeding is carried out, the driven gear 18 is driven to rotate by the lifting driving motor 7, so that the upper packing cabin 5 can ascend or descend, when the upper packing cabin 5 is filled, the upper packing cabin 5 can be lowered, an operator can conveniently fill the upper packing cabin 5, the feeding is convenient and quick, the climbing operation is not required by the operator, the safety is high, the packing efficiency is high, the threaded supporting rod 2 is arranged at the upper part of the supporting base 1, the gear connecting groove 16 is arranged at the lower side of the fixed supporting block 6, the gear connecting table 17 is arranged at the upper part of the driven gear 18, the gear connecting table 17 is matched with the gear connecting groove 16, the gear connecting table 17 is connected with the gear connecting groove 16, and the gear connecting table 17 is rotationally connected with the gear connecting groove 16.

Examples

The inside of the driven gear 18 is in threaded connection with the threaded support rod 2, the lower part of the lifting driving motor 7 is fixedly connected with the driving gear 19, the driven gear 18 is meshed with the driving gear 19, the upper part of the soft feed pipe 4 is fixedly connected with the upper feed connecting table 12, and the lower part of the soft feed pipe 4 is fixedly connected with the lower feed feeding groove 3.

Examples

The utility model comprises the following steps: the method comprises the steps of inserting a packing vibration block 9 into a packing groove 8 formed in an upper packing compartment 5, inserting a rotary connecting table 22 formed in the packing vibration block 9 into a rotary connecting groove 23 formed in the packing groove 8, fixedly mounting the outer side of a vibration motor 29 into a spring fixing groove 21 formed in the packing vibration block 9, inserting a driven vibration block 24 into a rotary connecting groove 23 formed in the right side of the upper packing compartment 5, fixedly mounting the driven vibration block 24 into the side of the driven vibration block 24, inserting a vibration slider 26 into a slider mounting table 14 formed in the upper packing compartment 5, inserting a driven vibration boss 27 formed in the vibration slider 26 into a driven sliding groove 25 formed in the driven vibration block 24, fixedly inserting a vibration motor 29 into a vibration motor groove 31 formed in the upper packing compartment 5, fixedly connecting the front of the vibration motor 29 with a driving vibration disk 28, inserting a driving vibration boss 32 formed in the driving vibration disk 28 into a driving sliding groove 30 formed in the front of the vibration slider 26, fixedly mounting the front of the upper packing compartment 5, fixedly mounting a lifting motor 7 into a motor mounting table 13 formed in the fixed supporting block 6, fixedly mounting a lifting gear 18 formed in the lifting support block 6, fixedly connecting the driven gear 18 with the driven gear 18 to the driven gear 18, fixedly connecting the driven gear 18 with the driven gear 18 and the driven gear 18, fixedly connecting the driven gear 18 to the driven gear 19 formed in the driving groove 19, and fixedly connecting the driven gear 19 to the bottom of the driven gear 18 and the bottom of the flexible material feeding tube 4, and fixedly connecting the driven gear 19 to the bottom of the driven gear 18.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, and it should be noted that it is possible for those skilled in the art to make several improvements and modifications without departing from the technical principle of the present utility model, and these improvements and modifications should also be regarded as the protection scope of the present utility model.

Claims (5)

1. The injection molding processing feeding mechanism is characterized by comprising a supporting base (1), a lower upper trough (3), a soft feeding pipe (4), an upper filler cabin (5), a fixed supporting block (6), a lifting driving motor (7), a filler vibration block (9), a driven gear (18), a driving gear (19), a Cheng Danhuang (20), a driven vibration block (24), a vibration sliding block (26), a driving vibration disk (28) and a vibration motor (29), wherein the lower part of the upper filler cabin (5) is provided with a filler trough (8), the filler vibration block (9) is matched with the filler trough (8), the filler vibration block (9) is connected with the filler trough (8), the filler vibration block (9) rotates in the filler trough (8), an inner feeding trough (10) is arranged in the filler vibration block (9), an upper feeding port (11) is arranged on the upper part of the inner feeding trough (10), an upper feeding connecting table (12) is arranged on the lower part of the filler vibration block (9), a rotary connecting table (22) is arranged on the side surface of the filler trough (8), a rotary connecting table (23) is arranged on the side surface of the filler trough (8), the rotary connecting table (22) is connected with the rotary connecting table (23), the rotary connecting table (22) rotates in the rotary connecting groove (23), the rotary connecting table (22) positioned on the right side of the filling vibration block (9) is internally provided with a spring fixing groove (21), the driven vibration block (24) is adapted to the rotary connecting groove (23), and the driven vibration block (24) is connected with the rotary connecting groove (23) positioned on the right side of the upper filling cabin (5).

2. The injection molding processing feed mechanism of claim 1, wherein the driven vibration block (24) rotates in the rotating connecting groove (23), the side surface of the driven vibration block (24) is fixedly connected with the middle part of the bracket Cheng Danhuang (20), the outer side of the bracket Cheng Danhuang (20) is fixedly connected with the inner part of the rotating connecting table (22), the side surface of the driven vibration block (24) is provided with the driven sliding groove (25), the side surface of the upper filling cabin (5) is provided with the vibration motor groove (31) and the sliding block mounting table (14), the vibration motor groove (31) is positioned on the upper side of the sliding block mounting table (14), the vibration sliding block (26) is matched with the sliding block mounting table (14), the vibration sliding block (26) is connected with the sliding block mounting table (14), the bottom of the vibration sliding block (26) is provided with the driven vibration boss (27), the driven vibration boss (27) is matched with the driven sliding groove (25), the driven vibration boss (27) is connected with the driven sliding groove (25), and the driven vibration boss (27) slides in the inner part of the driven sliding groove (25).

3. The injection molding processing feeding mechanism of claim 2, wherein the upper portion of the vibration sliding block (26) is provided with an active sliding groove (30), the front portion of the active vibration disc (28) is provided with an active vibration boss (32), the active vibration boss (32) is adaptive to the active sliding groove (30), the active vibration boss (32) is connected with the active sliding groove (30), the active vibration boss (32) slides in the active sliding groove (30), the side surface of the vibration motor groove (31) is fixedly connected with a vibration motor (29), the front portion of the vibration motor (29) is fixedly connected with the active vibration disc (28), and the front portion of the upper packing cabin (5) is fixedly connected with the fixed supporting block (6).

4. The injection molding processing feeding mechanism according to claim 3, wherein the lifting driving motor (7) is fixedly connected to the rear portion of the fixed supporting block (6), the threaded supporting rod (2) is arranged on the upper portion of the supporting base (1), the gear connecting groove (16) is arranged on the lower side of the fixed supporting block (6), the gear connecting table (17) is arranged on the upper portion of the driven gear (18), the gear connecting table (17) is matched with the gear connecting groove (16), the gear connecting table (17) is connected with the gear connecting groove (16), and the gear connecting table (17) is connected with the gear connecting groove (16) in a rotating mode.

5. The injection molding processing feeding mechanism according to claim 4, wherein the driven gear (18) is internally connected with the threaded support rod (2) in a threaded manner, the lower part of the lifting driving motor (7) is fixedly connected with the driving gear (19), the driven gear (18) is meshed with the driving gear (19), the upper part of the soft feed pipe (4) is fixedly connected with the upper feed connecting table (12), and the lower part of the soft feed pipe (4) is fixedly connected with the lower feed chute (3).