CN220767127U - Titanium sponge sticks together bottom cone remove device - Google Patents

Abstract

The utility model discloses a titanium sponge lump bottom cone taking-out device, which relates to the technical field of titanium sponge lump crushing and comprises a titanium lump body and a cone body, wherein the cone body is placed at the center of the titanium lump body, the cone body is tightly combined with the titanium lump body, a through hole is formed in the cone body, a connecting plate with an annular structure is attached to the top end of the titanium lump body, and the middle hole of the connecting plate is coaxial with the through hole. The utility model provides a titanium sponge lump bottom cone take-out device, the cone take-out device of the utility model can simplify the cone through the connection of device and cone and take out complicated process, reduce time consumption, increase work efficiency, and the device only need artifical mechanized operation when using, need not use the pneumatic pick to beat and get etc. and relatively hard and dangerous operation, thereby increase the operation security, this cone take-out device has still protected titanium lump bottom simultaneously, avoided the damaged pollution scheduling problem in titanium lump bottom.

Description

Titanium sponge sticks together bottom cone remove device

Technical Field

The utility model relates to the technical field of titanium sponge lump crushing, in particular to a titanium sponge lump bottom cone taking-out device.

Background

At present, the industrial production of titanium sponge at home and abroad adopts a magnesia-thermal reduction method, namely, magnesium metal is added into a reactor, titanium tetrachloride is continuously added to react with the titanium sponge, titanium lumps are obtained through a reduction distillation process, the titanium lumps are crushed and enter a selection packaging process, and finally a titanium sponge product is obtained.

The titanium lump production is finished, more difficulties exist in taking out the cone at the center of the titanium lump, the titanium lump is tightly combined with the cone, and the cone can be taken out only with great effort; meanwhile, the cone is taken out without a practical tool and can be lifted by a crane, so that the time consumption is long, and the procedure is complicated and complicated.

Accordingly, in view of the above, an improvement of the existing structure is proposed to provide a titanium sponge lump bottom cone extraction device.

Disclosure of Invention

The utility model aims to provide a titanium sponge lump bottom cone taking-out device so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a titanium sponge sticks together bottom cone extraction element, includes titanium body and cone body that sticks together, the cone body has been placed to titanium body central part that sticks together, and the cone body combines closely with titanium body that sticks together to the inside through-hole of having seted up of cone body, the connecting plate of annular structure has been placed in the laminating of titanium body top that sticks together, and connecting plate centre bore and through-hole coaxial center, connecting plate circumference annular array distributes the extractor that comprises hydraulic equipment, and the extractor both ends all are equipped with flange subassembly, the extractor is fixed mutually with the connecting plate through the bolt, and the extractor mounting order is standard and implement fastening step by step with diagonal angle installation, the connecting plate passes through flange fixedly connected with electromagnetic shaker, and electromagnetic shaker and extractor upper flange hole align and fasten mutually through the bolt with the backup pad.

Further, link up between cone body and the backup pad and have coupling assembling, coupling assembling includes pull rod and pull ring, the pull rod lower half runs through the through-hole and extends to the cone body inside, and pull rod top integral type fixedly connected with pull ring.

Further, the connecting assembly further comprises an outer thread and a threaded hand wheel, the outer thread is arranged on the circumference of the upper half part of the pull rod, the threaded hand wheel is matched with the outer thread of the outer thread, and the outer diameter of the threaded hand wheel is larger than the inner diameter of the middle hole of the support plate.

Further, the connecting assembly further comprises a channel, a notch and a bayonet lock, the channel is longitudinally formed in the pull rod, the notches are formed in two sides of the bottom of the channel, and the bayonet lock is rotatably installed in the notches in two sides.

Further, the connecting assembly further comprises a pressing rod and a button, the pressing rod is slidably arranged in the channel, and the button with a convex structure is fixedly arranged at the top end of the pressing rod.

Further, the connecting assembly further comprises a frustum and a spring, the frustum is integrally and fixedly connected to the bottom end of the compression bar, conical surfaces on two sides of the frustum are matched with the bayonet locks, and the bottom end of the frustum is elastically connected with the bottom end of the channel through the spring.

Compared with the prior art, the utility model has the following beneficial effects:

1. the cone taking-out device can simplify complex procedures for taking out the cone body through connection of the device and the cone body, reduces time consumption, increases working efficiency, and only needs manual mechanical operation when the device is used, and does not need relative laborious and dangerous operations such as pneumatic pick taking, so that the operation safety is increased.

2. When the cone body pulling device is used, the lower half part of the pull rod is abutted against the inner wall of the opening of the cone body through the bayonet lock after penetrating through the through hole, the upper half part of the pull rod is tightly attached to the supporting plate through the threaded hand wheel, the distance between the supporting plate and the connecting plate is increased through the combination of the extractor hydraulic device and the vibrator, and the pull rod is used for pulling the cone body, so that the cone body is pulled out, the deformation problem of the cone body is avoided through vertical pulling of the cone body, and the service cycle of the cone body is prolonged.

Drawings

FIG. 1 is a schematic diagram of the overall front view of the present utility model;

FIG. 2 is a schematic top view of the whole structure of the present utility model;

fig. 3 is a schematic view of the internal structure of the connecting assembly of the present utility model.

In the figure: 1. a titanium lump body; 2. a cone body; 3. a through hole; 4. a connection assembly; 401. a pull rod; 402. a pull ring; 403. an outer thread; 404. a threaded hand wheel; 405. a channel; 406. a notch; 407. a bayonet lock; 408. a compression bar; 409. a button; 410. a frustum; 411. a spring; 5. a connecting plate; 6. a remover; 7. a vibrator; 8. and a support plate.

Description of the embodiments

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1 to 2, a titanium sponge lump bottom cone extraction device comprises a titanium lump body 1 and a cone body 2, wherein the cone body 2 is placed at the center of the titanium lump body 1, the cone body 2 is tightly combined with the titanium lump body 1, a through hole 3 is formed in the cone body 2, a connecting plate 5 with an annular structure is attached to the top end of the titanium lump body 1, the middle hole of the connecting plate 5 is coaxial with the through hole 3, extractors 6 formed by hydraulic equipment are distributed in a circumferential annular array of the connecting plate 5, flange assemblies are arranged at two ends of the extractors 6, the extractors 6 are fixed with the connecting plate 5 through bolts, the mounting sequence of the extractors 6 is in a diagonal mounting standard and is fastened step by step, the connecting plate 5 is fixedly connected with a vibrator 7 through flanges, the flange holes on the vibrator 7 are aligned with a supporting plate 8 and are fastened through bolts, the cone body 2 is connected through the device, the cone body 2 to be extracted in a complex procedure, the time consumption is reduced, the working efficiency is increased, and when the device is used, only manual mechanical operation is needed, the problem that the pick body is polluted by the wind and the pick body is avoided, and the problem that the pick body 1 is broken is avoided when the device is used, and the bottom is also protected;

as shown in fig. 3, a connection component 4 is connected between the cone body 2 and the support plate 8, the connection component 4 comprises a pull rod 401 and a pull ring 402, the lower half part of the pull rod 401 penetrates through the through hole 3 and extends into the cone body 2, the top end of the pull rod 401 is integrally and fixedly connected with the pull ring 402, the connection component 4 further comprises an external screw thread 403 and a threaded hand wheel 404, the circumference of the upper half part of the pull rod 401 is provided with the external screw thread 403, the external screw thread of the external screw thread 403 is matched with the threaded hand wheel 404, the external diameter of the threaded hand wheel 404 is larger than the inner diameter of the middle hole of the support plate 8, the connection component 4 further comprises a channel 405, a notch 406 and a clamping pin 407, the inside of the pull rod 401 is longitudinally provided with the channel 405, the two sides of the bottom of the channel 405 are provided with the notch 406, the clamping pin 407 is rotatably arranged in the notches 406 at both sides, the connection component 4 further comprises a compression rod 408 and a button 409, the compression rod is slidably arranged in the channel 405, the button 409 with a 'convex' structure is fixedly arranged at the top end of the pressing rod 408, the connecting component 4 also comprises a frustum 410 and a spring 411, the integral type of the bottom end of the pressing rod 408 is fixedly connected with the frustum 410, the conical surfaces at the two sides of the frustum 410 are matched with the bayonet 407, the bottom end of the frustum 410 is elastically connected with the bottom end of the channel 405 through the spring 411, the lower half part of the pulling rod 401 is abutted against the inner wall of the opening of the cone body 2 through the bayonet 407 after penetrating through the through hole 3, the upper half part of the pulling rod 401 is tightly attached to the supporting plate 8 through the threaded hand wheel 404, and then the pulling force on the cone body 2 is generated by the pulling rod 401 through combining the hydraulic device of the extractor 6 with the vibrator 7 to increase the distance between the supporting plate 8 and the connecting plate 5, so that the cone body 2 is pulled out, the problem of deformation of the cone body 2 is avoided through vertical pulling of the cone body 2, the life cycle of the cone body 2 is prolonged.

Working principle: when the titanium sponge lump bottom cone taking-out device is used:

first, press button 409, under the cooperation of conical surface and bayonet lock 407 on both sides of frustum 410, make bayonet lock 407 draw in breach 406 of passageway 405 bottom both sides, after the latter half of pull rod 401 passes through-hole 3, release button 409, under the restoring force effect of spring 411, the expansion of bayonet lock 407 on both sides realizes the conflict to cone body 2 body opening part inner wall, need guarantee the coincidence of pull rod 401 and cone body 2 central line here, avoid taking place the slope when subsequently extracting cone body 2, thereby lead to cone body 2 wearing and tearing and even extrusion deformation problem, and then cause cone body 2 clearance maintenance time to increase, seriously can cause cone body 2 life-span to shorten.

And in the second step, the connecting plate 5 is installed, the coaxial center of the middle hole of the connecting plate 5 and the pull rod 401 is ensured, the bottom of the cone body 2 can be completely observed, the phenomenon that the cone body 2 is shielded by the connecting plate 5 cannot exist, if shielding exists, the position needs to be immediately adjusted, and the cone body 2 and the connecting plate 5 are prevented from being knocked in the process of pulling out the cone body 2, so that the cone body 2 and the connecting plate 5 are damaged.

Thirdly, installing the extractor 6, respectively fixing the extractor 6 on the connecting plate 5 through bolts, wherein the installation sequence is standard by diagonal installation, the deviation caused by one-step fastening is avoided during fastening, the primary fastening is needed, the extractor is ensured not to fall off, and all the support rods are installed one by one.

Fourth, installing the vibrator 7, and connecting and fastening the vibrator 7 and the connecting plate 5 through flanges.

And fifthly, installing the supporting plate 8, aligning the flange holes on the supporting plate 8 with the flange holes on the extractor 6 and the vibrator 7, inserting bolts for connection and fastening, and ensuring diagonal connection and step-by-step fastening in connection, so as to avoid deviation caused by stress concentration.

Sixth, the threaded hand wheel 404 is located at the upper half of the pull rod 401 and the outer screw 403 rotates, so that the threaded hand wheel 404 is tightly combined with the upper end of the support plate 8, and the titanium lump removing device is assembled.

Seventh, through the combination of the hydraulic device of the extractor 6 and the vibrator 7, the distance between the supporting plate 8 and the connecting plate 5 is increased, and the pulling force on the cone body 2 is generated by the extracting pull rod 401, so that the cone body 2 is pulled out from the titanium lump body 1.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. The utility model provides a titanium sponge titanium sticks together bottom cone extraction element, its characterized in that, includes titanium lump body (1) and cone body (2), cone body (2) have been placed in titanium lump body (1) central part, and cone body (2) combine closely with titanium lump body (1) to through-hole (3) have been seted up to cone body (2) inside, connecting plate (5) of annular structure have been placed in the laminating of titanium lump body (1) top, and connecting plate (5) centre bore and the coaxial heart of through-hole (3), connecting plate (5) circumference annular array distributes extractor (6) that comprise hydraulic equipment, and extractor (6) both ends all are equipped with flange subassembly, extractor (6) are fixed with connecting plate (5) through the bolt, and extractor (6) installation order is standard and implement the fastening step by step with diagonal angle installation, connecting plate (5) are through flange fixedly connected with electromagnetic shaker (7), and electromagnetic shaker (7) are in alignment of flange hole and backup pad (8) and fasten mutually through the bolt.

2. The titanium sponge lump bottom cone withdrawing device according to claim 1, wherein a connecting component (4) is connected between the cone body (2) and the supporting plate (8), the connecting component (4) comprises a pull rod (401) and a pull ring (402), the lower half part of the pull rod (401) penetrates through the through hole (3) and extends into the cone body (2), and the pull ring (402) is integrally connected to the top end of the pull rod (401).

3. The titanium sponge lump bottom cone withdrawing device according to claim 2, wherein the connecting assembly (4) further comprises an outer thread (403) and a threaded hand wheel (404), the outer thread (403) is arranged on the circumference of the upper half part of the pull rod (401), the threaded hand wheel (404) is matched with the outer thread of the outer thread (403), and the outer diameter of the threaded hand wheel (404) is larger than the inner diameter of the middle hole of the supporting plate (8).

4. The titanium sponge lump bottom cone withdrawing device according to claim 2, wherein the connecting assembly (4) further comprises a channel (405), a notch (406) and a bayonet lock (407), the channel (405) is longitudinally formed in the pull rod (401), the notches (406) are formed in two sides of the bottom of the channel (405), and the bayonet lock (407) is rotatably mounted in the notches (406) on two sides.

5. The titanium sponge lump bottom cone withdrawing device as claimed in claim 4, wherein the connecting assembly (4) further comprises a pressing rod (408) and a button (409), the pressing rod (408) is slidably mounted in the channel (405), and the button (409) with a 'convex' structure is fixedly mounted at the top end of the pressing rod (408).

6. The titanium sponge lump bottom cone withdrawing device according to claim 5, wherein the connecting assembly (4) further comprises a frustum (410) and a spring (411), the frustum (410) is integrally and fixedly connected to the bottom end of the compression bar (408), conical surfaces on two sides of the frustum (410) are matched with the bayonet lock (407), and the bottom end of the frustum (410) is elastically connected with the bottom end of the channel (405) through the spring (411).