CN212372390U - Ceramic bottleneck processing device - Google Patents

Abstract

The utility model discloses a pottery bottleneck processingequipment relates to the technical field for ceramic machining, to the problem of the quick processing of bottleneck in the ceramic machining process, the following scheme is put forward at present, the fruit pick-up device comprises a frame body, the bottom inner wall fixedly connected with motor of framework, the pivot is installed to the output of motor, there is the double flute driving pulley through bolted connection in the pivot, the both sides of double flute driving pulley are equipped with driven pulley, right side there is first screw rod, left side through bolted connection on the driven pulley there is the second screw rod through bolted connection on the driven pulley. The utility model discloses a combination of various structures makes the device not only can replace artifical rotation to among the ceramic machining process by machinery and provide power and fixed, and this device can the height of automatically regulated cutter, simple and convenient ceramic manufacture's mode to improve work efficiency, and reduced the contact of staff to pottery, be favorable to protecting staff's hand.

Description

Ceramic bottleneck processing device

Technical Field

The utility model relates to a technical field is used in ceramic machining, especially relates to a pottery bottleneck processingequipment.

Background

At present, all the clay with different properties, such as argil and china clay, is used as a raw material, and a device manufactured by the technical processes of proportioning, forming, drying, roasting and the like can be called as ceramic, along with the development of modern science and technology, a plurality of new ceramic varieties appear in the last century, the clay, feldspar, quartz and other traditional ceramic raw materials are not used or are rarely used, other special raw materials are used, the range of non-silicate and non-oxide is expanded, and a plurality of new processes appear.

The existing processing of the bottleneck of the ceramic is still manually carried out, the processing is not only slow, the working efficiency is reduced, but also the hand of the worker is greatly damaged, so that the body health of the worker is easily damaged.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of pottery bottleneck processingequipment has solved the problem of processing fast to the bottleneck in the ceramic machining process.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a ceramic bottleneck processing device comprises a frame body, wherein a motor is fixedly connected to the inner wall of the bottom of the frame body, a rotating shaft is mounted at the output end of the motor, a double-groove driving belt pulley is connected to the rotating shaft through bolts, driven belt pulleys are arranged on two sides of the double-groove driving belt pulley, a first screw rod is connected to the driven belt pulley on the right side through a bolt, a second screw rod is connected to the driven belt pulley on the left side through a bolt, two movable rings are in threaded connection with the first screw rod and the second screw rod, a first support rod is hinged to the outer ring of one side, away from the two side wall of the frame body, of each movable ring, one end, away from the corresponding movable ring, of each first support rod is hinged to a vertical;

the top of first screw rod and second screw rod has the drive bevel gear through bolted connection, one side that the drive bevel gear is close to framework both sides conch wall is equipped with driven bevel gear, and meshes the transmission between drive bevel gear and the driven bevel gear, driven bevel gear keeps away from one side of drive bevel gear and installs reciprocal lead screw, the screw thread has cup jointed the screw ring on the reciprocal lead screw, it has the second vaulting pole to circle articulated on the top of screw ring, the top of second vaulting pole articulates there is the third slider, the bottom of third slider articulates there is the third vaulting pole, the bottom of third vaulting pole articulates there is the diaphragm, the inside of framework is equipped with the fixed plate.

Preferably, the inner wall of the bottom of the frame body is connected with a motor through a bolt, a first slotted hole is formed in the wall of the middle portion of the fixing plate, a movable disc is rotatably connected to the inside of the first slotted hole, and the top end of the rotating shaft is welded to the movable disc.

Preferably, two second slotted holes are formed in the fixing plate, the top ends of the first screw rod and the second screw rod penetrate through the second slotted holes, and a belt is connected between the double-groove driving belt pulley and the driven belt pulley.

Preferably, two first chutes are formed in the fixing plate, a first sliding block is connected to the inside of each first chute in a sliding mode, a vertical plate is welded to the top of each first sliding block, a second chute is formed in the vertical plate, two second sliding blocks are connected to the inside of each second chute in a sliding mode, one end, far away from the movable ring, of each first support rod is hinged to the corresponding second sliding block, and the first support rods are hinged to each other.

Preferably, gu fixed ring's transversal semicircular structure of personally submitting, gu fixed ring's inside roll connection has five balls, two the welding has the spring, two between the activity ring reverse motion between the activity ring, the top welding of fixed plate has two branches, first bearing is installed on the top of branch, pass through bolted connection between first bearing and the reciprocal lead screw.

Preferably, the reciprocating screw rod is far away from one end of the driven bevel gear and is provided with a second bearing, one side of the second bearing, which is far away from the driven bevel gear, is fixedly connected to the inner walls of the two sides of the frame body, the top shell wall of the frame body is provided with two third sliding grooves, the inside of each third sliding groove is connected with a third sliding block in a sliding manner, the middle shell wall of the transverse plate is provided with a third slotted hole, the transverse plate is provided with two fourth sliding grooves, the inside of each fourth sliding groove is connected with a fourth sliding block in a sliding manner, the bottom of each fourth sliding block is welded with a cutter, and the front of each.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses an installation motor, a rotating shaft, double flute driving pulley, driven pulley, first screw rod, the second screw rod, fine, first vaulting pole, the combination of solid fixed ring and activity dish makes the device replace artifical rotation and fixed to the ceramic machining in-process by machinery, thereby make things convenient for staff's ceramic manufacture, and driving bevel gear, driven bevel gear, reciprocal lead screw, the screw ring, the second vaulting pole, the third vaulting pole, thereby the combination of diaphragm and cutter makes the device can process the ceramic bottleneck through the position of adjustment cutter, thereby not needing not only the angle that highly still has the control cutter of control cutter, make ceramic machining portably change, thereby improve work efficiency.

To sum up, the utility model discloses a combination of various structures makes the device not only can replace artifical rotation to among the ceramic machining process by machinery and provide power and fix, and this device can the height of automatically regulated cutter, the mode of simple and convenient ceramic manufacture to improve work efficiency, and reduced the staff to the contact of pottery, be favorable to protecting staff's hand.

Drawings

Fig. 1 is a schematic front sectional structural view of a ceramic bottleneck processing device according to the present invention;

fig. 2 is the utility model provides a local structure of a department enlargies the schematic diagram of pottery bottleneck processingequipment.

In the figure: the device comprises a frame body 1, a motor 2, a double-groove driving belt pulley 3, a driven belt pulley 4, a first screw rod 5, a second screw rod 6, a movable ring 7, a first support rod 8, a fixing ring 9, a driving bevel gear 10, a driven bevel gear 11, a threaded ring 12, a reciprocating screw rod 13, a second support rod 14, a third support rod 15, a transverse plate 16 and a fixing plate 17.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-2, a ceramic bottleneck processing device comprises a frame body 1, wherein a motor 2 is fixedly connected to the inner wall of the bottom of the frame body 1, a rotating shaft is mounted at the output end of the motor 2, a double-groove driving pulley 3 is connected to the rotating shaft through a bolt, driven pulleys 4 are arranged on two sides of the double-groove driving pulley 3, a first screw 5 is connected to the right driven pulley 4 through a bolt, a second screw 6 is connected to the left driven pulley 4 through a bolt, two movable rings 7 are respectively in threaded connection with the first screw 5 and the second screw 6, a first support rod 8 is hinged to the outer ring of one side of each movable ring 7, which is far away from the wall of each side of the frame body 1, a vertical plate is hinged to one end of each first support rod 8, which is far away from the;

the top of first screw rod 5 and second screw rod 6 has drive bevel gear 10 through bolted connection, one side that drive bevel gear 10 is close to 1 both sides conch wall of framework is equipped with driven bevel gear 11, and meshing transmission between drive bevel gear 10 and the driven bevel gear 11, driven bevel gear 11 keeps away from one side of drive bevel gear 10 and installs reciprocal lead screw 13, screw ring 12 has been cup jointed to reciprocal lead screw 13 upper thread, it has second vaulting pole 14 to articulate on the top overcoat of screw ring 12, the top of second vaulting pole 14 articulates there is the third slider, the bottom of third slider articulates there is third vaulting pole 15, the bottom of third vaulting pole 15 articulates there is diaphragm 16, the inside of framework 1 is equipped with fixed plate 17.

The inner wall of the bottom of the frame body 1 is connected with a motor 2 through a bolt, the middle shell wall of a fixed plate 17 is provided with a first slotted hole, the inside of the first slotted hole is rotatably connected with a movable disc, the top end of a rotating shaft is welded on the movable disc, the fixed plate 17 is provided with two second slotted holes, the top ends of a first screw 5 and a second screw 6 both pass through the second slotted holes, a belt is connected between a double-groove driving belt pulley 3 and a driven belt pulley 4, the fixed plate 17 is provided with two first sliding grooves, the inside of the first sliding grooves is slidably connected with a first sliding block, the top of the first sliding block is welded with a vertical plate, the vertical plate is provided with a second sliding groove, the inside of the second sliding grooves is slidably connected with two second sliding blocks, one end of a first support rod 8 far away from a movable ring 7 is hinged on the second sliding block, the two first support rods 8 are hinged with each, the welding has the spring between two loose rings 7, reverse motion between two loose rings 7, fixed plate 17's top welding has two branches, first bearing is installed on the top of branch, pass through bolted connection between first bearing and the reciprocal lead screw 13, reciprocal lead screw 13 keeps away from the one end of driven bevel gear 11 and installs the second bearing, one side fixed connection that driven bevel gear 11 was kept away from to the second bearing is on framework 1's both sides inner wall, two third spouts have been seted up on framework 1's the top conch wall, the sliding connection of the inside of third spout has the third slider, the third slotted hole has been seted up on diaphragm 16's the middle part conch wall, two fourth spouts have been seted up on diaphragm 16, the inside sliding connection of fourth spout has the fourth slider, the bottom welding of fourth slider has the cutter, the front welding of fourth slider has the handle.

In this embodiment, first, the ceramic to be processed is placed on the movable disk, the motor 2 is started to rotate in the forward direction, so as to drive the double-groove driving pulley 3 and the movable disk to rotate, the double-groove driving pulley 3 drives the driven pulley 4 to rotate through the belt, so as to drive the first screw 5 and the second screw 6 to rotate, so as to rotate the movable ring 7, the movable ring 7 approaches to the middle, the compression spring drives the first stay bar 8 to move, so as to drive the vertical plate to move towards the middle, so as to make the fixed ring 9 contact with the ceramic embryo, the movable ring 7 is in an idle state, so as to make the ceramic embryo not only be fixed on the movable disk, but also rotate along with the movable disk, the driving bevel gear 10 and the driven bevel gear 11 are in meshing transmission, so as to drive the reciprocating screw rod 13 to rotate, so as to make the threaded ring 12 perform reciprocating motion, so as to drive the third slider, the third support rod 15 is driven to move so as to drive the transverse plate 16 to move up and down, the ceramic embryo is processed by the handle control tool, the two-handle tool can be used simultaneously to improve the working efficiency, and the spare tool can be prevented from being used after the tool is damaged, so that the production stop is avoided.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The ceramic bottleneck processing device comprises a frame body (1) and is characterized in that a motor (2) is fixedly connected to the inner wall of the bottom of the frame body (1), a rotating shaft is installed at the output end of the motor (2), a double-groove driving pulley (3) is connected to the rotating shaft through a bolt, driven pulleys (4) are arranged on two sides of the double-groove driving pulley (3), a first screw (5) is connected to the driven pulley (4) on the right side through a bolt, a second screw (6) is connected to the driven pulley (4) on the left side through a bolt, two movable rings (7) are in threaded connection with the first screw (5) and the second screw (6) respectively, a first support rod (8) is hinged to the outer ring of one side, far away from the two side walls of the frame body (1), of the movable ring (7) is hinged to one end, far away from the first support rod (8), of the vertical plate, one side, close to the two vertical plates, of each vertical plate is welded with a fixing ring (9);

the top ends of the first screw (5) and the second screw (6) are connected with a driving bevel gear (10) through bolts, one side of the driving bevel gear (10) close to the shell walls at the two sides of the frame body (1) is provided with a driven bevel gear (11), and the driving bevel gear (10) and the driven bevel gear (11) are in meshing transmission, one side of the driven bevel gear (11) far away from the driving bevel gear (10) is provided with a reciprocating screw rod (13), a threaded ring (12) is sleeved on the reciprocating screw rod (13) in a threaded manner, a second support rod (14) is hinged on the outer ring at the top of the threaded ring (12), the top end of the second stay bar (14) is hinged with a third slide block, the bottom of the third slide block is hinged with a third stay bar (15), the bottom end of the third support rod (15) is hinged with a transverse plate (16), and a fixing plate (17) is arranged inside the frame body (1).

2. The ceramic bottleneck processing device according to claim 1, wherein the inner wall of the bottom of the frame body (1) is connected with a motor (2) through a bolt, a first slot hole is formed in the middle shell wall of the fixing plate (17), a movable disc is rotatably connected inside the first slot hole, and the top end of the rotating shaft is welded on the movable disc.

3. The ceramic bottleneck processing device according to claim 1, wherein the fixing plate (17) is provided with two second slots, the top ends of the first screw (5) and the second screw (6) pass through the second slots, and a belt is connected between the double-slot driving pulley (3) and the driven pulley (4).

4. The ceramic bottleneck processing device according to claim 1, wherein two first sliding grooves are formed in the fixing plate (17), a first sliding block is connected to the inside of each first sliding groove in a sliding manner, a vertical plate is welded to the top of each first sliding block, a second sliding groove is formed in each vertical plate, two second sliding blocks are connected to the inside of each second sliding groove in a sliding manner, one end, far away from the movable ring (7), of the first support rod (8) is hinged to the second sliding block, and the two first support rods (8) are hinged to each other.

5. The ceramic bottleneck processing device according to claim 1, wherein the cross section of the fixing ring (9) is in a semicircular structure, five balls are connected to the inside of the fixing ring (9) in a rolling manner, a spring is welded between the two movable rings (7), the two movable rings (7) move in opposite directions, two support rods are welded to the top of the fixing plate (17), a first bearing is mounted at the top end of each support rod, and the first bearing is connected with the reciprocating screw rod (13) through a bolt.

6. The ceramic bottleneck processing device according to claim 1, wherein a second bearing is installed at one end of the reciprocating screw rod (13) far away from the driven bevel gear (11), one side of the second bearing far away from the driven bevel gear (11) is fixedly connected to inner walls of two sides of the frame body (1), two third sliding grooves are formed in a top shell wall of the frame body (1), a third sliding block is connected to the inside of each third sliding groove in a sliding manner, a third slotted hole is formed in the middle of a shell wall of the transverse plate (16), two fourth sliding grooves are formed in the transverse plate (16), a fourth sliding block is connected to the inside of each fourth sliding groove in a sliding manner, a cutter is welded to the bottom of each fourth sliding block, and a handle is welded to the front face of each fourth sliding block.

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