CN219820283U - Automatic feeding device - Google Patents

Abstract

The utility model relates to the technical field of automobile part processing, in particular to an automatic feeding device which comprises a supporting component, an open mill body and a power mechanism, wherein the power mechanism comprises a closed cover, a motor and a motor box, the closed cover is connected with the motor box in a drawing way and is positioned in the motor box, the two fixed components are respectively clamped with corresponding fixed grooves, the motor is connected with the motor box in a drawing way and is positioned in the motor box, an outer sleeve seat penetrates through the motor box, the outer sleeve seat and the inner sleeve seat are mutually combined, a first clamping block and a second clamping block are mutually propped against each other, the motor box is fixedly connected with the open mill body and is positioned at one side of the supporting block, and a worm is rotated manually by the motor instead of manually, so that the problem that when a feeding hopper is moved, a worker is required to manually rotate the worm, and a large force is required to be used for rotating the worm, and the labor intensity of the worker is increased.

Description

Automatic feeding device

Technical Field

The utility model relates to the technical field of automobile part machining, in particular to an automatic feeding device.

Background

The open mill is a rubber mixing machine for preparing plasticated rubber, mixed rubber or exposed roller in a rubber factory, the produced plasticated rubber and mixed rubber are mainly used for manufacturing rubber parts in traffic, building, machinery, electronics, automobiles and other industries and emerging industries, the open mill is equipment capable of carrying out hot mixing processing and mixing processing on rubber raw materials, in order to feed the open mill, a manual feeding mode is adopted generally, because the open mill works in an open environment, operators need to put raw materials on a high-temperature roller, hands of the operators are easy to contact with the high-temperature roller, scalding is caused, in the manual feeding process, the operators need to firstly hold liquid raw materials by hands, then put the liquid raw materials on the high-temperature roller, and the raw materials are easy to scatter outside the machine by hands.

Prior art patent CN208854855U discloses an auto parts automatic feeding device, including the mill body, the front and the back of mill body top both sides are fixed mounting respectively has the fixed block, the quantity of fixed block is four, four every two sets of respectively distributes in the both sides on mill body top of fixed block, two sets of the equal movable sleeve in middle part of fixed block threaded rod uses through the cooperation of worm, worm wheel, two initiative helical gears, two passive helical gears, two threaded rods, two movable blocks and backup pad, makes into the hopper and can reciprocate, and then when changing the distance value between two rollers on the mill body, the bottom of going into the hopper can be located the top of a roller all the time, makes the rubber raw materials that goes into the hopper can fall on the roller when needs reinforced, avoided the manual contact with the roller of high temperature when feeding of operating personnel to cause the problem of operating personnel to auto parts high safety has been reached.

However, in the prior art, when the feeding hopper is moved, a worker is required to manually rotate the worm, and a large force is required to rotate the worm, so that the labor intensity of the worker is increased.

Disclosure of Invention

The utility model aims to provide an automatic feeding device, and aims to solve the technical problem that in the prior art, because a worker is required to manually rotate a worm when moving a feeding hopper, and a large force is required to be used for rotating the worm, the labor intensity of the worker is increased.

In order to achieve the above purpose, the automatic feeding device comprises a supporting component, an open mill body and a power mechanism, wherein an inlet hopper is arranged above the supporting component, a roller is arranged in the middle of the open mill body, two fixing blocks are symmetrically arranged above the open mill body, a threaded rod is rotatably arranged on the fixing blocks, a worm wheel is arranged at one end of the threaded rod, supporting blocks are arranged on two sides of the worm wheel, a worm is rotatably arranged on the supporting blocks, the worm wheel is in transmission connection with the worm, the supporting component is in threaded connection with the open mill body and sleeved on the corresponding threaded rod, the power mechanism comprises a closed cover, a motor and a motor box, two fixing components are arranged on the end face of the closed cover in a drawing mode, an outer sleeve seat is arranged at the output end of the motor, a first clamping block is arranged in the outer sleeve seat, a second clamping block is arranged above the inner sleeve seat, two inner sides of the motor box are provided with fixing grooves, the motor cover is in threaded connection with the motor, and is in butt joint with the motor box, and the two clamping blocks are in butt joint with the outer sleeve seat, and the two clamping boxes are in butt joint with the outer sleeve seat, and the motor box is in butt joint with the two clamping boxes, and the two clamping boxes respectively.

The power mechanism further comprises two extrusion blocks, wherein the two extrusion blocks are fixedly connected with the corresponding fixing assemblies respectively, are located above the fixing assemblies, and are located on the upper end face of the closing cover.

The fixed assembly comprises a limiting ring, a spring and a fixed rod, wherein the upper end face of the closed cover is provided with a movable groove, the two ends of the movable groove are provided with drawing grooves, the limiting ring is fixedly connected with the fixed rod and located in the middle of the fixed rod and located in the corresponding drawing grooves, the spring is sleeved on the fixed rod and located in the drawing grooves and abuts against the limiting ring, the fixed rod is connected with the closed cover in a drawing manner and located in the corresponding drawing grooves, one end of the fixed rod is clamped with the corresponding fixed groove, and the two extrusion blocks are respectively fixedly connected with the corresponding fixed rod and located above the movable groove.

The automatic feeding device further comprises four universal wheels, wherein the four universal wheels are fixedly connected with the open mill body respectively and symmetrically arranged on the lower end face of the open mill body.

The support assembly comprises two movable blocks and a support plate, wherein the two movable blocks are respectively and fixedly connected with the support plate and are positioned at two ends of the support plate, and the two movable blocks are also respectively and correspondingly connected with the threaded rods in a threaded manner.

According to the automatic feeding device, the motor is started to rotate, the outer sleeve seat is driven, the first clamping block in the outer sleeve seat is propped against the second clamping block in the inner sleeve seat, the outer sleeve seat is driven to rotate by the inner sleeve seat, the inner sleeve seat is driven to rotate by the worm, so that a mode of manually rotating the worm is replaced, the motor can be conveniently detached, the two fixing assemblies are moved in a trend of approaching each other through extrusion, the movement limit of the closing cover is eliminated, the closing cover is taken out from the motor box, the motor is taken out from the motor box, when the motor is required to be installed, the motor is placed into the motor box, the outer sleeve seat is combined with the seat, the first clamping block and the second clamping block are positioned on the same horizontal line, the first clamping block is pressed against the motor, the second clamping block is pressed against the worm, the two clamping blocks are moved into the motor box, the two clamping blocks are correspondingly moved into the worm groove, and the automatic clamping groove is required to be closed, and the manual clamping groove is closed, so that the manual clamping groove is required to be closed, and the manual clamping groove is closed.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a front view of a first embodiment of the present utility model.

Fig. 2 is an enlarged view of a portion of fig. 1 a of the present utility model.

Fig. 3 is a schematic structural view of a worm in the first embodiment of the present utility model.

Fig. 4 is a three-dimensional perspective view of the motor case in the first embodiment of the present utility model.

Fig. 5 is a front view of the motor case in the first embodiment of the present utility model.

Fig. 6 is a cross-sectional view of the utility model taken along line B-B of fig. 5.

Fig. 7 is a partial enlarged view of fig. 6C in accordance with the present utility model.

Fig. 8 is a front view of a second embodiment of the present utility model.

101-supporting components, 102-mill bodies, 103-feeding hoppers, 104-rollers, 105-fixed blocks, 106-threaded rods, 107-worm wheels, 108-supporting blocks, 109-worms, 110-closed covers, 111-motors, 112-motor boxes, 113-outer sleeves, 114-first clamping blocks, 115-inner sleeves, 116-second clamping blocks, 117-fixed grooves, 118-extrusion blocks, 119-limiting rings, 120-springs, 121-fixed rods, 122-moving grooves, 123-pumping grooves, 201-universal wheels, 202-movable blocks and 203-supporting plates.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

First embodiment:

referring to fig. 1 to 7, wherein fig. 1 is a front view of a first embodiment of the present utility model, fig. 2 is a partially enlarged view of fig. 1 a of the present utility model, fig. 3 is a schematic structural view of a worm in the first embodiment of the present utility model, fig. 4 is a three-dimensional perspective view of a motor case in the first embodiment of the present utility model, fig. 5 is a front view of the motor case in the first embodiment of the present utility model, fig. 6 is a cross-sectional view of fig. 5 taken along line B-B of the present utility model, and fig. 7 is a partially enlarged view of fig. 6C of the present utility model.

The utility model provides an automatic feeding device, which comprises a supporting component 101, an open mill body 102 and a power mechanism, wherein the power mechanism comprises a closing cover 110, a motor 111, a motor box 112 and two extrusion blocks 118, and the fixing component comprises a limiting ring 119, a spring 120 and a fixing rod 121.

For this concrete implementation, the top of supporting component 101 is provided with into hopper 103, the middle part of mill body 102 is provided with roller 104, the top symmetry of mill body 102 is provided with two fixed blocks 105, the rotation is equipped with threaded rod 106 on the fixed block 105, threaded rod 106's one end is provided with worm wheel 107, the both sides of worm wheel 107 are provided with supporting shoe 108, the rotation is provided with worm 109 on the supporting shoe 108, just worm wheel 107 with worm 109 transmission is connected, supporting component 101 with mill body 102 threaded connection, and the cover is located corresponding on threaded rod 106, through supporting component 101 can drive into hopper 103 moves to the last branch of roller 104, mill body 102 can carry out the hot milling processing and the milling processing with the rubber raw materials, the fixed block 105 can be convenient for threaded rod 106 rotates, threaded rod 106 can be convenient for the transmission supporting component 101 moves, worm 107 can with worm wheel 109 carries out transmission connection to drive threaded rod 106 rotates.

The end face of the closing cover 110 is provided with two fixing components in a drawing mode, the output end of the motor is provided with an outer sleeve seat 113, a first clamping block 114 is arranged in the outer sleeve seat 113, one end of the worm 109 is provided with an inner sleeve seat 115, a second clamping block 116 is arranged above the inner sleeve seat 115, two inner sides of the motor box 112 are provided with fixing grooves 117, the closing cover 110 is connected with the motor box 112 in a drawing mode and is positioned in the motor box 112, the two fixing components are respectively clamped with the corresponding fixing grooves 117, the motor 111 is connected with the motor box 112 in a drawing mode and is positioned in the motor box 112, the outer sleeve seat 113 penetrates through the motor box 112, the inner sleeve seat 115 is combined with each other, the first clamping block 114 is mutually abutted with the second clamping block 116, the motor box 112 is fixedly connected with the open mill body 102 and is positioned on one side of the supporting block 108, the motor box 110 can be held by the closing cover, the motor box 111 can be held by the motor box 111, the two clamping blocks can be mutually abutted against the motor box 112, and the two clamping blocks can be horizontally held by the two clamping blocks, and the two clamping blocks can be mutually fixed by the two clamping blocks, and the two clamping blocks can be mutually held by the two clamping blocks and the motor box seat 112.

Secondly, the two extrusion blocks 118 are respectively and fixedly connected with the corresponding fixing assemblies, are located above the fixing assemblies, and are also located on the upper end face of the closing cover 110, and the extrusion of the fixing assemblies can be facilitated through the extrusion blocks 118.

Again, the upper end surface of the closing cover 110 has a moving groove 122, two ends of the moving groove 122 have a pumping groove 123, the limiting ring 119 is fixedly connected with the fixing rod 121 and is located in the middle of the fixing rod 121 and is also located in the corresponding pumping groove 123, the spring 120 is sleeved on the fixing rod 121 and is located in the pumping groove 123 and abuts against the limiting ring 119, the fixing rod 121 is in pumping connection with the closing cover 110 and is located in the corresponding pumping groove 123, one end of the fixing rod 121 is in clamping connection with the corresponding fixing groove 117, the two extruding blocks 118 are respectively fixedly connected with the corresponding fixing rod 121 and are located above the moving groove 122, the moving distance of the spring 120 can be limited by the limiting ring 119, and the connection between the fixing rod 121 and the fixing groove 117 is tighter by the spring 120.

When the worm 109 is rotated by the utility model, the motor 111 is started to rotate, the outer sleeve seat 113 is driven to abut against the first clamping block 114 in the outer sleeve seat 113 and the second clamping block 116 in the inner sleeve seat 115, the outer sleeve seat 113 is driven to rotate the inner sleeve seat 115, the inner sleeve seat 115 is driven to rotate the worm 109, thereby replacing the manual rotation mode of the worm 109, the motor 111 can be conveniently disassembled, the two fixing assemblies are pressed to move in a mutually approaching trend, thereby removing the movement restriction of the closing cover 110, taking the closing cover 110 out of the motor box 112, taking the motor 111 out of the motor box 112, and when the installation is needed, placing the motor 111 into the motor box 112 so as to be abutted against the motor box 112, combining the outer sleeve seat 113 and the inner sleeve seat 115 with each other, simultaneously enabling the first clamping block 114 and the second clamping block 116 to be on the same horizontal line, enabling the first clamping block 114 to be abutted against the second clamping block 116, extruding the two fixing assemblies again, placing the closing cover 110 into the motor box 112 so as to be abutted against the motor 111, finally loosening the two fixing assemblies, enabling the two fixing assemblies to automatically enter the corresponding fixing grooves 117, limiting the moving distance of the closing cover 110, in this way, solving the problem that when the feeding hopper 103 is moved, a worker is required to manually rotate the worm 109, and a large force is required to be used for rotating the worm 109, thereby increasing the technical problem of the labor intensity power mechanism of the staff.

The second embodiment is:

on the basis of the first embodiment, please refer to fig. 8, wherein fig. 8 is a front view of a second embodiment of the present utility model.

The utility model provides an automatic feeding device which further comprises four universal wheels 201, wherein the supporting component 101 comprises two movable blocks 202 and a supporting plate 203.

For this embodiment, the four universal wheels 201 are respectively fixedly connected with the mill body 102, and symmetrically disposed on the lower end surface of the mill body 102, so that the mill body 102 can be conveniently moved by the universal wheels 201.

Wherein, two movable blocks 202 are respectively fixedly connected with the supporting plate 203 and are positioned at two ends of the supporting plate 203, and two movable blocks 202 are respectively connected with the corresponding threaded rods 106 in a threaded manner, and the movable blocks 202 and the threaded rods 106 are mutually matched to facilitate driving the supporting plate 203 to move.

By using the automatic feeding device of the embodiment, the universal wheel 201 can facilitate moving the open mill body 102, and the movable block 202 and the threaded rod 106 cooperate with each other to facilitate driving the supporting plate 203 to move.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims (5)

1. An automatic feeding device comprises a supporting component and an open mill body, wherein a feeding hopper is arranged above the supporting component, rollers are arranged in the middle of the open mill body, two fixing blocks are symmetrically arranged above the open mill body, a threaded rod is rotationally arranged on the fixing blocks, a worm wheel is arranged at one end of the threaded rod, supporting blocks are arranged on two sides of the worm wheel, a worm is rotationally arranged on the supporting blocks, the worm wheel is in transmission connection with the worm, the supporting component is in threaded connection with the open mill body and sleeved on the corresponding threaded rod,

the device also comprises a power mechanism;

the power mechanism comprises a closing cover, a motor and a motor box, wherein two fixing components are arranged on the end face of the closing cover in a drawing mode, an outer sleeve seat is arranged at the output end of the motor, a first clamping block is arranged in the outer sleeve seat, an inner sleeve seat is arranged at one end of the worm, a second clamping block is arranged above the inner sleeve seat, fixing grooves are formed in the two inner sides of the motor box, the closing cover is connected with the motor box in a drawing mode and is positioned in the motor box in a propping mode, the two fixing components are respectively connected with the corresponding fixing grooves in a clamping mode, the motor is connected with the motor box in a drawing mode and is positioned in the motor box, the outer sleeve seat penetrates through the motor box, the outer sleeve seat is combined with the inner sleeve seat, the first clamping block is mutually propped against the second clamping block, and the motor box is fixedly connected with the open mill body and is positioned on one side of the supporting block.

2. The automatic feeding apparatus according to claim 1, wherein,

the power mechanism further comprises two extrusion blocks, the two extrusion blocks are fixedly connected with the corresponding fixing assemblies respectively, located above the fixing assemblies and located on the upper end face of the closing cover.

3. The automatic feeding apparatus according to claim 2, wherein,

the fixed subassembly includes spacing ring, spring and dead lever, the up end of closing cap has removes the recess, remove the both ends of recess have the groove of drawing, the spacing ring with dead lever fixed connection, and be located the middle part of dead lever, and still be located corresponding draw-out inslot, the spring housing is located on the dead lever, and be located draw-out inslot, and support the spacing ring, the dead lever with closing cap draws out to be connected, and be located corresponding draw-out inslot, just the one end of dead lever with the dead slot joint that corresponds, two the extrusion piece respectively with corresponding dead lever fixed connection, and be located remove the top of recess.

4. The automatic feeding apparatus according to claim 3, wherein,

the automatic feeding device further comprises four universal wheels, wherein the four universal wheels are fixedly connected with the open mill body respectively and symmetrically arranged on the lower end face of the open mill body.

5. The automatic feeding apparatus according to claim 4, wherein,

the support assembly comprises two movable blocks and a support plate, wherein the two movable blocks are respectively and fixedly connected with the support plate and are positioned at two ends of the support plate, and the two movable blocks are also respectively and correspondingly connected with the threaded rods in a threaded manner.