CN211027841U - Thin machine of revolving of thermos cup - Google Patents

Abstract

The utility model discloses a thin machine soon of thermos cup, aim at overcoming among the prior art thin quick-witted artifical unloading of revolving and waste time and energy problem, it includes the frame, cup fixture, feed mechanism, cup fixture sets up the main shaft in the frame including rotating, the work piece can overlap and establish on the main shaft and rotate together with the main shaft, the transmission is connected with main motor on the main shaft, last pinch roller and two splint of being provided with respectively of feed mechanism, feed mechanism can drive the pinch roller and remove to the week of work piece and along the axial displacement of work piece, feed mechanism still can drive two splint centre gripping work pieces and establish the work piece cover on the main shaft or dismantle the work piece from the main shaft, feed mechanism can drive two splint centre gripping work pieces and establish the work piece cover on the main shaft or dismantle the work piece from the main shaft, realize unloading in the automation.

Description

Thin machine of revolving of thermos cup

Technical Field

The utility model belongs to the stainless steel product manufacturing technology, in particular to a thin machine soon of thermos cup.

Background

The thermos cup adopts the stainless steel to make usually, when making the inner bag of thermos cup, thereby adopts the pipe of stainless steel to carry out the rotation thin inner bag that obtains usually, and the inner bag is thin more the better heat preservation effect, mainly has following advantage: 1. the whole cup is light in weight, the weight of the liner is reduced, and the whole vacuum cup is portable; 2. the heat preservation effect is better.

Chinese utility model as application number "2018213661082" discloses a thin machine soon, include base, support, fixed rotating shaft, fixing base, contract assembly and spinning pole soon, the support mounting is in on the base, it is in to contract the assembly setting soon horizontal and longitudinal movement on the support and on the support, fixed rotating shaft installs on the fixing base, spinning pole is in longitudinal movement on the support, it is located to contract the assembly soon the both sides of fixed rotating shaft, it is provided with the throat gyro wheel and thin gyro wheel soon to contract on the assembly soon, the throat gyro wheel sets up one of them thin gyro wheel soon's lower extreme.

However, the prior art is not perfect, the workpiece and the spindle are tightly matched together, the workpiece is mounted on the spindle by workers, time and labor are wasted, the workpiece and the spindle are matched more tightly after the workpiece is processed by rotating and shrinking, the workpiece is more difficult to detach by the workers, and the manual loading and unloading are time and labor wasted.

SUMMERY OF THE UTILITY MODEL

For overcoming the not enough and problem that exists of prior art, the utility model provides a change degree height, work input little, the thin machine soon of thermos cup that production efficiency is high.

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

the utility model provides a thermos cup revolves thin machine, includes the frame, cup fixture, feed mechanism, cup fixture is including rotating the main shaft that sets up in the frame, the work piece can overlap on the main shaft and rotate with the main shaft together, the transmission is connected with main motor on the main shaft, feed mechanism is last to be provided with spinning wheel and two splint respectively, feed mechanism can drive spinning wheel and move to the week of work piece and along the axial displacement of work piece, feed mechanism still can drive two splint centre gripping work pieces and establish the work piece cover on the main shaft or dismantle the work piece from the main shaft.

Preferably, the feeding mechanism comprises a first sliding table which is vertically arranged on the rack and slides, a first ball screw is arranged between the first sliding table and the rack, the first ball screw is connected with a first motor in a transmission mode, the first sliding table is provided with two second sliding tables which slide transversely respectively, the two clamping plates are fixedly arranged on the two second sliding tables respectively, the first sliding table is provided with two first cylinders respectively, and output ends of the two first cylinders are connected to the two second sliding tables respectively.

Preferably, a third sliding table capable of sliding transversely is arranged on the first sliding table, a spinning wheel is arranged on the third sliding table, a second ball screw is arranged between the third sliding table and the first sliding table, and a second motor is connected to the second ball screw in a transmission mode.

Preferably, the outer end of the clamping plate is provided with an arc-shaped groove matched with the workpiece.

Preferably, the cup body clamping mechanism further comprises a fourth sliding table which is vertically arranged on the rack and slides, an upper material pressing disc is rotated on the fourth sliding table, a lower material pressing disc is fixedly arranged on the main shaft, a workpiece sleeved on the main shaft can be axially fixed between the upper material pressing disc and the lower material pressing disc, a second air cylinder is arranged on the rack, and the output end of the second air cylinder is connected to the fourth sliding table.

Preferably, the upper material pressing plate is rotatably arranged on the fourth sliding table through a rolling bearing.

Preferably, an induction ring is arranged on the fourth sliding table, a position sensor is arranged on the rack, and the position sensor interacts with the induction ring to enable the position sensor to transmit a position signal of the fourth sliding table.

Preferably, the number of the position sensors is at least two, and more than two position sensors are vertically arranged on the rack.

Preferably, the rack is provided with a counterweight mechanism connected to the first sliding table, and the counterweight mechanism is used for balancing partial load on the first sliding table.

Compared with the prior art, the utility model outstanding and profitable technological effect is: the feeding mechanism is provided with two clamping plates, the feeding mechanism can drive the two clamping plates to clamp a workpiece and enable the workpiece to be sleeved on the spindle or be detached from the spindle, compared with the prior art in which the workpiece is manually loaded and unloaded, the problems of time consumption, labor consumption, high labor input and low efficiency and easy error exist in production and processing, the rotary thinning machine of the vacuum cup only needs to be input into special management, and therefore the vacuum cup has the advantages of being high in automation degree, small in labor input, high in production efficiency, suitable for being applied to the large environment of increasing labor cost, and more stable, accurate and controllable in rotary thinning process.

Drawings

Fig. 1 is one of the schematic structural diagrams of the present invention;

fig. 2 is a second schematic structural diagram of the present invention;

FIG. 3 is a schematic structural view of the cup body holding mechanism of the present invention;

fig. 4 is a schematic structural diagram of a feeding mechanism of the present invention;

fig. 5 is a schematic structural view of the counterweight mechanism of the present invention;

fig. 6 is a schematic structural view of the splint of the present invention;

in the figure: 1-frame, 2-cup clamping mechanism, 3-feeding mechanism, 4-counterweight mechanism, 5-spinning wheel, 6-clamping plate, 7-induction ring, 8-position sensor, 9-guide rod, 21-main shaft, 22-main motor, 23-fourth sliding table, 24-lower pressing plate, 25-upper pressing plate, 26-rolling bearing, 27-second cylinder, 31-first sliding table, 32-second sliding table, 33-third sliding table, 34-first ball screw, 35-second ball screw, 36-first motor, 37-second motor, 38-first cylinder, 41-chain wheel, 42-chain, 43-counterweight frame, 44-counterweight block, 45-roller, 451-annular groove, 61-arc groove.

Detailed Description

To facilitate understanding of those skilled in the art, the present invention will be further described with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 6, a rotary thinning machine for a vacuum cup is mainly used for finishing a rotary thinning process of a workpiece (a cylindrical workpiece is thinned into an inner container of the vacuum cup), and comprises a frame 1, a cup body clamping mechanism 2, a feeding mechanism 3 and a counterweight mechanism 4, wherein the frame 1 is formed by integrally welding a plurality of steel plates.

The cup body clamping mechanism 2 is used for clamping a workpiece and driving the workpiece to rotate, the cup body clamping mechanism 2 comprises a main shaft 21 which is rotatably arranged on the rack 1, the main shaft 21 is vertically arranged on the rack 1, the workpiece can be sleeved on the main shaft 21 and can rotate together with the main shaft 21, when the workpiece and the main shaft 21 rotate together, a spinning wheel 5 which is located on the circumferential direction of the workpiece can spin-thin the side wall of the workpiece, a main motor 22 is in transmission connection with the main shaft 21, the main motor 22 can be a speed regulating motor, and the main motor 22 can be in transmission connection with the main shaft 21 through a belt.

The cup body clamping mechanism 2 further comprises a fourth sliding table 23 which is vertically arranged on the rack 1 in a sliding mode, an upper material pressing disc 25 rotates on the fourth sliding table 23, a lower material pressing disc 24 is fixedly arranged on the main shaft 21, the lower material pressing disc 24 is integrally formed on the main shaft 21, the axial direction of the upper material pressing disc 25, the axial direction of the lower material pressing disc 24 and the axial direction of the main shaft 21 are on the same straight line, a second air cylinder 27 is arranged on the rack 1, the output end of the second air cylinder 27 is connected to the fourth sliding table 23, the output end of the second air cylinder 27 can be connected to the fourth sliding table 23 through a rod end joint bearing, the second air cylinder 27 can drive the lower material pressing disc 24 to tightly press a workpiece which is sleeved on the main shaft 21, therefore, the workpiece which is sleeved on the main shaft 21 can be axially fixed between the upper material pressing disc 25 and the lower material pressing disc 24, and when the main motor 22.

Go up the pressure charging tray 25 and pass through antifriction bearing 26 and rotate the setting on fourth slip table 23, when last pressure charging tray 25 is rotatory, antifriction bearing 26 becomes rolling friction with sliding friction, has reduced friction loss, has improved the rotatory smoothness and the transmission efficiency of last pressure charging tray 25, work piece and main shaft 21.

Be provided with the inductance loop 7 on the fourth slip table 23, be provided with position sensor 8 on the frame 1, position sensor 8 is non-contact proximity sensor, and position sensor 8 and inductance loop 7 interact and then make position sensor 8 spread the position signal of fourth slip table 23 to the position of pressing material dish 25 in the real-time detection can be gone up.

Because the problem that the pressing plate 25 is pressed downwards at different distances exists in the process of machining workpieces with different lengths, the position of the pressing plate 25 is detected in real time through the position sensor 8, and the rotary pressing wheel 5 and the clamping plate 6 can be conveniently and timely adjusted to move in the axial direction of the workpieces.

The number of the position sensors 8 is at least two, more than two position sensors 8 are vertically arranged on the rack 1, and the induction ring 7 moves back and forth among the position sensors 8, so that the accuracy of position signals is further improved.

The feeding mechanism 3 is provided with a spinning wheel 5, and the feeding mechanism 3 can drive the spinning wheel 5 to move to the circumferential direction of the workpiece and move along the axial direction of the workpiece, so that the spinning wheel 5 can spin and thin the workpiece on the cup body clamping mechanism 2.

The feeding mechanism 3 comprises a first sliding table 31 which is vertically arranged on the rack 1, the first sliding table 31 can vertically slide on the rack 1, a first ball screw 34 is arranged between the first sliding table 31 and the rack 1, and a first motor 36 is in transmission connection with the first ball screw 34.

The third sliding table 33 which slides transversely is arranged on the first sliding table 31, the spinning wheel 5 is arranged on the third sliding table 33, the third sliding table 33 can slide transversely on the first sliding table 31, the third sliding table 33 slides, the distance between the spinning wheel 5 and the main shaft 21 can be adjusted, a second ball screw 35 is arranged between the third sliding table 33 and the first sliding table 31, a second motor 37 is arranged on the first sliding table 31, and the second motor 37 is in transmission connection with the second ball screw 35.

Second motor 37 accessible second ball 35 adjusts the distance between spinning wheel 5 and the main shaft 21 to realize controlling the thickness of spinning wheel 5 to the work piece processing, first motor 36 accessible first ball 34 adjusts first slip table 31 at the ascending height of axial of main shaft 21, thereby realizes that spinning wheel 5 processes into same thickness to the whole side of work piece.

The second motor 37 and the second ball screw 35 can be driven by a synchronous belt, the synchronous belt ensures accurate transmission ratio, has stable transmission, buffering and vibration reduction effects, and improves the position precision of the spinning wheel 5 and the processing precision of workpieces.

The third slip table 33 is two, two third slip tables 33 set up the both sides at main shaft 21 respectively, and the setting slides on the same height of first slip table 31, be provided with a spinning wheel 5 on a third slip table 33, be provided with two spinning wheels 5 on another third slip table 33, all remove to the circumference of work piece when three spinning wheel 5, three spinning wheel 5 centers on in the circumference of work piece uniformly, the contained angle between the adjacent spinning wheel 5 is 120, thereby further improved and revolved thin efficiency, the degree of consistency of processing and the stability of atress.

The feeding mechanism 3 is also provided with two clamping plates 6, the two clamping plates 6 and the spinning wheel 5 are mutually independent, the feeding mechanism 3 can drive the two clamping plates 6 to clamp the workpiece and sleeve the workpiece on the spindle 21 or disassemble the workpiece from the spindle 21, and the workpiece is convenient to load and unload.

Two second sliding tables 32 which transversely slide are respectively arranged on the first sliding table 31, the two second sliding tables 32 are respectively arranged on two sides of the main shaft 21 and slide on the same height of the second sliding tables 32, the two clamping plates 6 are respectively and fixedly arranged on the two second sliding tables 32, two first cylinders 38 are respectively arranged on the first sliding table 31, output ends of the two first cylinders 38 are respectively connected on the two second sliding tables 32, the two first cylinders 38 can respectively drive the two clamping plates 6 to respectively move to two sides of a workpiece, so that the workpiece can be clamped by the two clamping plates 6, the first sliding table 31 can drive the two clamping plates 6 to vertically slide, and therefore the workpiece can be sleeved on the main shaft 21 or the workpiece can be detached from the main shaft 21.

Compared with the prior art in which workpieces are manually loaded and unloaded, the vacuum cup thin machine only needs to be dedicated to management, so that the vacuum cup thin machine has the advantages of high automation degree, low labor input, high production efficiency and suitability for large environment with increasing labor cost, and the thin process is more stable, accurate and controllable.

The outer end of splint 6 is formed with the arc wall 61 of adaptation work piece, stability when further improving splint 6 centre gripping work piece avoids the problem that the work piece drops.

The counterweight mechanism 4 is arranged on the frame 1 and connected to the first sliding table 31, and the counterweight mechanism 4 is used for balancing part of the load on the first sliding table 31, so that the power required by the first motor 36 for driving the first sliding table 31 is reduced, and the equipment cost and the energy are saved.

The counterweight mechanism 4 includes the sprocket 41, the sprocket 41 rotates and sets up on the frame 1, the meshing has the chain 42 on the sprocket 41, the one end of chain 42 is connected on first slip table 31, the other end of chain 42 is connected with counterweight housing 43, be provided with the balancing weight 44 on counterweight housing 43, when first motor 36 drive first slip table 31 goes up and down, first slip table 31 passes through the chain 42 and drives counterweight housing 43 on balancing weight 44 and go up and down towards opposite direction, can realize the purpose of balancing the load on first slip table 31 through the weight of adjusting balancing weight 44.

The chain 42 is two, and the one end of two chains 42 is connected respectively in the both sides of first slip table 31, and the other end of two chains 42 is connected in the both sides of counterweight housing 43, and the sprocket 41 is four, and four sprockets 41 are two liang to be set up, and the meshing has two sprockets 41 on the arbitrary chain 42, has improved the towed stationarity of chain 42.

Fixed vertical guide arm 9 that is provided with on the frame 1 rotates on the counterweight housing 43 and is provided with gyro wheel 45, and gyro wheel 45 inject vertical movement on guide arm 9 for counterweight housing 43 keeps vertical movement, avoids counterweight housing 43 to take place to rock and produce extra load to first motor 36.

When the roller 45 vertically moves on the guide rod 9, the roller 45 also rolls on the guide rod 9, rolling friction is generated between the roller 45 and the guide rod 9, friction loss is reduced, and the moving smoothness and the transmission efficiency of the counterweight housing 43 are improved.

Guide arm 9 and gyro wheel 45 have four respectively, and four guide arms 9 set up respectively at the four ends of counterweight housing 43, and guide arm 9 is the round bar, has seted up annular groove 451 in the circumference of gyro wheel 45, and gyro wheel 45 inject vertical movement on guide arm 9 one-to-one, and the annular groove 451 adaptation of gyro wheel 45 further avoids counterweight housing 43 to take place to rock at the removal in-process on the guide arm 9 that corresponds.

The sliding between the first sliding table 31 and the frame 1, between the second sliding table 32 and the first sliding table 31, between the third sliding table 33 and the first sliding table 31, and between the fourth sliding table 23 and the frame 1 can be realized by linear guide rails.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (6)

1. A thin machine soon of thermos cup, characterized by, including frame (1), cup fixture (2), feed mechanism (3), cup fixture (2) is including rotating main shaft (21) that sets up in frame (1), the work piece can overlap on main shaft (21) and rotate with main shaft (21), the transmission is connected with main motor (22) on main shaft (21), there are spinning wheel (5) and two splint (6) on feed mechanism (3) respectively, feed mechanism (3) can drive spinning wheel (5) move to the week of the work piece and along the axial displacement of the work piece, feed mechanism (3) can also drive two splint (6) to grasp the work piece and overlap the work piece on main shaft (21) or dismantle the work piece from main shaft (21);

the cup body clamping mechanism (2) further comprises a fourth sliding table (23) which is arranged on the rack (1) and vertically slides, an upper material pressing disc (25) rotates on the fourth sliding table (23), a lower material pressing disc (24) is fixedly arranged on the main shaft (21), a workpiece sleeved on the main shaft (21) can be axially fixed between the upper material pressing disc (25) and the lower material pressing disc (24), a second air cylinder (27) is arranged on the rack (1), and the output end of the second air cylinder (27) is connected to the fourth sliding table (23);

the upper material pressing disc (25) is rotatably arranged on the fourth sliding table (23) through a rolling bearing (26);

be provided with induction ring (7) on fourth slip table (23), be provided with position sensor (8) on frame (1), position sensor (8) and induction ring (7) interact and then make position sensor (8) spread the position signal of fourth slip table (23).

2. The rotary thinning machine for the heat preservation cup according to claim 1, wherein the feeding mechanism (3) comprises a first sliding table (31) which is vertically arranged on the frame (1) and slides, a first ball screw (34) is arranged between the first sliding table (31) and the frame (1), a first motor (36) is in transmission connection with the first ball screw (34), two second sliding tables (32) which slide transversely are respectively arranged on the first sliding table (31), the two clamping plates (6) are respectively fixedly arranged on the two second sliding tables (32), two first air cylinders (38) are respectively arranged on the first sliding table (31), and output ends of the two first air cylinders (38) are respectively connected to the two second sliding tables (32).

3. A vacuum cup rotary-thinning machine according to claim 2, characterized in that a third sliding table (33) capable of sliding transversely is arranged on the first sliding table (31), a rotary-pressing wheel (5) is arranged on the third sliding table (33), a second ball screw (35) is arranged between the third sliding table (33) and the first sliding table (31), and a second motor (37) is in transmission connection with the second ball screw (35).

4. A cup thinning machine according to claim 1, 2 or 3, characterized in that the outer end of the clamping plate (6) is formed with an arc-shaped slot (61) adapted to the workpiece.

5. A vacuum cup rotary-thinning machine according to claim 1, characterized in that, the number of the position sensors (8) is at least two, and more than two position sensors (8) are vertically arranged on the frame (1).

6. A vacuum cup rotary-thinning machine according to claim 1, characterized in that the machine frame (1) is provided with a counterweight mechanism (4) connected to the first sliding table (31), and the counterweight mechanism (4) is used for balancing part of the load on the first sliding table (31).

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