CN218120773U - Pneumatic head screwing device for water gel seismic focus explosive column - Google Patents

Abstract

The utility model relates to a screw capping ware technical field, concretely relates to pneumatic ware of twisting head of glue seismic focus powder column, including pneumatic spanner, wrong housing and ejecting subassembly, the screw capping cover has the joint groove, and ejecting subassembly includes mount pad, ejecting spring, check lock lever, liftout plate and locking member. The utility model discloses when carrying out the screwing up operation of gland, will twist the housing and align with the gland, and the cover is established on the gland, at this moment start pneumatic spanner, make pneumatic spanner drive the screw cap cover and rotate, and then screw up the gland, when taking off the gland, make the ejecting spring of liftout plate compression, and lock the check lock lever through locking member, then repeat above-mentioned operation, and make pneumatic spanner's output reversal, and then drive the screw cap cover reversal and take off the gland, at this moment the staff removes the locking of locking member to the check lock lever, and then make the ejecting plate ejecting with the gland, thereby realize making things convenient for the staff to take off the gland from the screw cap cover, reduce operating procedure, promote the mesh of taking off gland efficiency.

Description

Pneumatic head screwing device for water gel seismic focus explosive column

Technical Field

The utility model relates to a screw cap ware technical field especially relates to a pneumatic ware of twisting one's head of water gel focus explosive column.

Background

In the production process of water gel explosive focus powder column, for better demand that satisfies the customer, change into under the mode of original plain type cartridge receiver and increase the inner cup waterproof, adopt threaded connection between inner cup and the barrel, increased the leakproofness between inner cup and the barrel, nevertheless traditional mode is through artifical carrying out the screw capping, intensity of labour is big like this, consumes the manpower.

An existing cap screwing device is provided with a motor and a cap screwing cover, the cap screwing cover is installed on the output end of the motor, when cap screwing operation is carried out, a cap screwing cover is sleeved on a gland, then the cap screwing cover is driven by the motor to rotate, and the gland is screwed on a barrel body or is screwed off from the barrel body.

The device drives the screwing cover cap to rotate through the motor to perform screwing cover operation, but the screwing cover cap is not provided with an ejection structure, and after the gland is unscrewed, a worker still needs to separate the gland from the screwing cover cap, so that the operation steps are increased, and the efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a pneumatic wrong head ware of water gel focus powder column has solved the current twist cap ware and has covered and not set up ejecting structure, after twisting the gland, the staff still need separate gland and twist cap cover, has increased operating procedure like this, has reduced the problem of efficiency.

In order to achieve the purpose, the utility model provides a pneumatic screwing head device for a water gel seismic focus explosive column, which comprises a pneumatic wrench and a screwing cover, wherein the screwing cover is arranged on the pneumatic wrench and is connected with the output end of the pneumatic wrench, a clamping groove is arranged on the screwing cover, and the device also comprises an ejection assembly; the ejection assembly comprises a mounting seat, an ejection spring, a locking rod, an ejection plate and a locking member, the mounting seat is fixedly connected with the screwing cover and is positioned inside the screwing cover, the ejection spring is connected with the mounting seat and is positioned on one side of the mounting seat, the ejection plate is connected with the ejection spring and is positioned at one end, far away from the mounting seat, of the ejection spring, the locking rod is fixedly connected with the ejection plate and is positioned on one side, close to the ejection spring, of the ejection plate, and the locking member is arranged on the mounting seat and locks the locking rod.

The locking component comprises a locking seat and a return spring, and the return spring is connected with the mounting seat and arranged on the mounting seat; the locking seat is connected with the reset spring and is positioned at one end, far away from the mounting seat, of the reset spring.

The locking seat comprises a button, a support and a locking block, and the support is connected with the return spring and is positioned at one end of the return spring; the locking block is fixedly connected with the bracket and is positioned on one side of the bracket close to the locking rod; the button is fixedly connected with the support and is positioned on one side, far away from the reset spring, of the support.

The locking rod is provided with a locking groove, the locking groove is formed in the locking rod and is located on one side, close to the locking block, of the locking rod, and the locking groove is matched with the locking block.

The ejection assembly further comprises a limiting plate, the limiting plate is fixedly connected with the locking rod and is positioned on one side, away from the ejection plate, of the locking rod.

The locking seat further comprises a sliding block, and the sliding block is fixedly connected with the support and is positioned on one side of the support.

The mounting seat is provided with a sliding groove, the sliding groove is arranged on the mounting seat and is positioned on one side, close to the sliding block, of the mounting seat, and the sliding groove is matched with the sliding block.

The utility model discloses a pneumatic screwing device of water gel focus explosive column, through when the pneumatic screwing device of water gel focus explosive column carries out the screwing operation of gland, will it covers and gland to it, then makes to twist on the cover the surface butt joint of joint groove and gland, at this moment starts pneumatic spanner makes pneumatic spanner drives it drives to twist the cover and rotate, and then drives the gland rotation, screws up the gland, when needing to take off the gland, makes the liftout plate is compressing during ejecting spring, through locking member will the check lock lever locking, and then will the liftout plate locking makes ejecting spring is in compression state, then repeats above-mentioned operation, and makes pneumatic spanner's output reversal, and then drives it takes off the gland to twist the cover reversal, at this moment the staff relieves locking member is right the locking of check lock lever, and then makes the liftout plate can remove, at this moment ejecting spring resets, and then drives the liftout plate removes, the removal of liftout plate will be located the gland of the inside to realize making things convenient for the staff and take off the gland from the gland reduction operating personnel and take off the gland, the gland efficiency of gland.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic view of the overall structure of the pneumatic head screwing device for the water gel seismic charge according to the first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the ejection assembly according to the first embodiment of the present invention.

Fig. 3 is a schematic view of the overall structure of the lock member according to the first embodiment of the present invention.

Fig. 4 is a schematic structural view of a locking groove according to a first embodiment of the present invention.

Fig. 5 is a schematic structural view of a chute according to a second embodiment of the present invention.

Fig. 6 is a schematic structural view of a guide member according to a third embodiment of the present invention.

Fig. 7 is a schematic structural view of a guide bar according to a third embodiment of the present invention.

In the figure: 101-pneumatic wrench, 102-screwing cover, 103-ejecting component, 104-mounting seat, 105-ejecting spring, 106-locking rod, 107-ejecting plate, 108-locking member, 109-locking seat, 110-return spring, 111-button, 112-bracket, 113-locking block, 114-locking groove, 115-limiting plate, 116-clamping groove, 201-sliding block, 202-sliding groove, 301-guiding member, 302-guiding sleeve and 303-guiding rod.

Detailed Description

The embodiments of the invention will be described in detail hereinafter, examples of which are illustrated in the accompanying drawings, and the embodiments described hereinafter with reference to the drawings are exemplary and intended to be illustrative of the invention and should not be construed as limiting the invention.

The first embodiment:

referring to fig. 1 to 4, wherein fig. 1 is a schematic view of an overall structure of a pneumatic head screwing device for a water gel seismic charge, fig. 2 is a schematic view of a structure of an ejection assembly, fig. 3 is a schematic view of an overall structure of a locking member, and fig. 4 is a schematic view of a structure of a locking groove, the utility model provides a pneumatic head screwing device for a water gel seismic charge, which comprises a pneumatic wrench 101, a screwing cover 102 and an ejection assembly 103, the screwing cover 102 is provided with a clamping groove 116, the ejection assembly 103 comprises an installation base 104, an ejection spring 105, a locking rod 106, an ejection plate 107, a locking member 108 and a limiting plate 115, the locking member 108 comprises a locking base 109 and a return spring 110, the locking base 109 comprises a button 111, a bracket 112 and a locking block 113, and the locking rod 106 has a locking groove 114.

To this embodiment, the cover screwing hood 102 is disposed on the pneumatic wrench 101 and connected to the output end of the pneumatic wrench 101, and the cover screwing hood 102 is provided with a clamping groove 116, and the cover screwing hood 102 is driven by the pneumatic wrench 101 to rotate, so as to screw and remove the gland.

Wherein, the mounting base 104 is fixedly connected with the screwing cover 102 and is located inside the screwing cover 102, the ejecting spring 105 is connected with the mounting base 104 and is located on one side of the mounting base 104, the ejecting plate 107 is connected with the ejecting spring 105 and is located at one end of the ejecting spring 105 far away from the mounting base 104, the locking rod 106 is fixedly connected with the ejecting plate 107 and is located on one side of the ejecting plate 107 near the ejecting spring 105, the locking member 108 is arranged on the mounting base 104 and locks the locking rod 106, when the screwing operation of the gland is performed through the hydraulic seismic charge pneumatic head screwing device, the screwing cover 102 is aligned with the gland, then the clamping groove 116 on the screwing cover 102 is aligned with the surface of the gland, at this time, the pneumatic wrench 101 is started, the pneumatic wrench 101 drives the screwing cover 102 to rotate, then the gland is driven to rotate, the gland is screwed on the cylinder body, when the gland needs to be taken down, the ejector plate 107 is enabled to compress the ejector spring 105, the locking rod 106 is locked through the locking component 108, the ejector plate 107 is locked, the ejector spring 105 is enabled to be in a compression state, then the operation is repeated, the output end of the pneumatic wrench 101 is enabled to rotate reversely, the screwing cover 102 is driven to rotate reversely, the gland is taken down, at the moment, a worker releases the locking of the locking rod 106 through the locking component 108, the ejector plate 107 can move, at the moment, the ejector spring 105 resets, the ejector plate 107 is driven to move, the gland positioned in the screwing cover 102 is ejected through the movement of the ejector plate 107, and therefore the gland is convenient to take down from the screwing cover 102 by the worker, the operation steps are reduced, and the gland taking-down efficiency is improved.

The return spring 110 is connected with the mounting seat 104 and is arranged on the mounting seat 104; the locking seat 109 is connected to the return spring 110 and is located at an end of the return spring 110 away from the mounting seat 104.

Meanwhile, the bracket 112 is connected to the return spring 110 and is located at one end of the return spring 110; the locking block 113 is fixedly connected with the bracket 112 and is positioned on one side of the bracket 112 close to the locking rod 106; the button 111 is fixedly connected to the bracket 112 and is located on a side of the bracket 112 away from the return spring 110.

In addition, the locking groove 114 is disposed on the locking lever 106 and is located at one side of the locking lever 106 close to the locking block 113, and the locking groove 114 is engaged with the locking block 113.

The locking rod 106 is provided with an inclined surface which is matched with the locking block 113, when the gland is taken down, the pneumatic wrench 101 is held by hand, the screwing cap cover 102 is sleeved on the gland, the clamping groove 116 is in butt joint with the surface of the gland, the ejector plate 107 is in butt joint with the gland, then the pneumatic wrench 101 is pressed downwards, the pneumatic wrench 101 drives the screwing cap cover 102 to move downwards, the support 112 and the locking block 113 are driven to move downwards, the ejector plate 107 presses the ejector spring 105 in the driving and moving process, when the inclined surface on the locking block 113 is in butt joint with the inclined surface on the locking rod 106, the locking block 113 can move in the horizontal direction under the action of the two inclined surfaces, the support 112 is driven to compress the return spring 110, when the locking block 113 moves to the locking groove 114, the support 112 is reset under the action of the return spring 110, the locking block 113 is driven to stretch into the locking groove 114, the locking rod 106 is pressed by the locking block 113, the support 113 is in the locking groove 114, the locking groove, the support 112 is driven to move, the ejector plate 111 is driven to move, the ejector spring 111, and the push the ejector plate 111, the locking button 111, and the gland is removed, and the locking button 111 is driven to move, and the locking block 113 is driven to move, so that the ejector plate 111 is removed, the locking button 111, and the push out of the gland, and the push button 111, and the gland, and the push button 111.

The limiting plate 115 is fixedly connected with the locking rod 106 and located on one side, away from the ejection plate 107, of the locking rod 106, a square hole is formed in the mounting seat 104 and matched with the locking rod 106, the limiting plate 115 limits movement of the locking rod 106, so that the locking rod 106 cannot be completely moved out of the mounting seat 104, at least one part of the locking rod 106 is left inside the mounting seat 104, and the locking rod 106 is prevented from being separated from the mounting seat 104.

When the water gel seismic charge pneumatic head screwing device of the embodiment is used, when the gland is screwed, the screwing cover 102 is sleeved on the gland, then the pneumatic wrench 101 is started, the pneumatic wrench 101 drives the screwing cover 102 to rotate, the gland is screwed through the rotation of the screwing cover 102, when the gland is taken down, the screwing cover 102 is sleeved on the gland, then the pneumatic wrench 101 is pressed downwards, the pneumatic wrench 101 drives the screwing cover 102 and the mounting seat 104 to move downwards, because the ejecting plate 107 abuts on the gland, the ejecting plate 107 and the locking rod 106 cannot move downwards, so that the movement of the mounting seat 104 can extrude the ejecting spring 105, and simultaneously, the mounting seat 104 also drives the bracket 112 and the locking block 113 to move, so that the inclined surface on the locking block 113 abuts on the inclined surface on the locking rod 106, thus, the locking block 113 can move in the horizontal direction, and drives the bracket 112 to move to press the return spring 110, when the locking block 113 moves to the locking groove 114, the bracket 112 and the locking block 113 reset under the action of the return spring 110, so that the locking block 113 extends into the locking groove 114 and locks the locking rod 106, after the gland is removed, the button 111 is pressed, so that the button 111 drives the bracket 112 and the locking block 113 to move, so that the locking block 113 is removed from the locking groove 114, so that the locking rod 106 and the ejector plate 107 can move, the ejector plate 107 moves under the action of the ejector spring 105, so that the gland is ejected, thereby facilitating a worker to remove the gland from the gland cover 102, and reducing operation steps, promote the purpose of taking off gland efficiency.

The second embodiment:

on the basis of the first embodiment, please refer to fig. 5, fig. 5 is a schematic structural view of the sliding groove of the second embodiment, the locking seat 109 of this embodiment further includes a sliding block 201, and the mounting seat 104 has a sliding groove 202.

For the present embodiment, the sliding block 201 is fixedly connected to the bracket 112 and is located at one side of the bracket 112.

The sliding groove 202 is disposed on the mounting base 104 and located on one side of the mounting base 104 close to the sliding block 201, and the sliding groove 202 is matched with the sliding block 201.

The two sliding blocks 201 and the two sliding grooves 202 are respectively arranged at two sides of the bracket 112, the sliding blocks 201 are arranged in the sliding grooves 202, the sliding blocks 201 are limited to move through the sliding grooves 202, and further the movement of the bracket 112 is limited, so that the bracket 112 can only move along the direction of the sliding grooves 202, the stability of the bracket 112 during moving is improved, and the bracket 112 is prevented from falling off from the mounting seat 104.

The second embodiment:

on the basis of the first embodiment, please refer to fig. 6 and 7, fig. 6 is a schematic structural diagram of a guide member of the second embodiment, fig. 7 is a schematic structural diagram of a guide rod of the second embodiment, the ejection assembly 103 of this embodiment further includes a guide member 301, and the guide member 301 includes a guide sleeve 302 and a guide rod 303.

In the present embodiment, the guide member 301 is provided on the knock-out plate 107 and guides the movement of the knock-out plate 107.

The guide rod 303 is fixedly connected with the ejector plate 107 and is positioned on one side of the ejector plate 107 close to the ejector spring 105; uide bushing 302 with mount pad 104 fixed connection, and be located the mount pad 104 is close to one side of guide bar 303, uide bushing 302 cover is established on the guide bar 303, guide member 301 is provided with a plurality ofly, and evenly distributed is in on the liftout plate 107, through uide bushing 302 is right the removal of guide bar 303 leads, makes guide bar 303 can only be followed the direction of uide bushing 302 is removed, and then makes liftout plate 107 can only be followed the direction of uide bushing 302 is removed, promotes the degree of stability when liftout plate 107 removes.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims (7)

1. A water gel seismic charge pneumatic head screwing device comprises a pneumatic wrench and a screwing cover, wherein the screwing cover is arranged on the pneumatic wrench and is connected with the output end of the pneumatic wrench, and a clamping groove is formed in the screwing cover; the ejection assembly comprises a mounting seat, an ejection spring, a locking rod, an ejection plate and a locking member, the mounting seat is fixedly connected with the screwing cover and is positioned inside the screwing cover, the ejection spring is connected with the mounting seat and is positioned on one side of the mounting seat, the ejection plate is connected with the ejection spring and is positioned at one end, far away from the mounting seat, of the ejection spring, the locking rod is fixedly connected with the ejection plate and is positioned on one side, close to the ejection spring, of the ejection plate, and the locking member is arranged on the mounting seat and locks the locking rod.

2. The pneumatic head driving device for water gel seismic charge of claim 1, wherein the locking member comprises a locking seat and a return spring, and the return spring is connected with the mounting seat and arranged on the mounting seat; the locking seat is connected with the reset spring and is positioned at one end, far away from the mounting seat, of the reset spring.

3. The pneumatic head driving device for water gel seismic charge of claim 2, wherein the locking seat comprises a button, a bracket and a locking block, the bracket is connected with the return spring and is positioned at one end of the return spring; the locking block is fixedly connected with the bracket and is positioned on one side of the bracket close to the locking rod; the button is fixedly connected with the support and is positioned on one side, far away from the reset spring, of the support.

4. The pneumatic head driving device for water gel seismic charge of claim 3, wherein the locking bar has a locking groove, the locking groove is disposed on the locking bar and located on one side of the locking bar close to the locking block, and the locking groove is engaged with the locking block.

5. The pneumatic head screwing device for water gel seismic charge of claim 1, wherein the ejection assembly further comprises a limiting plate fixedly connected with the locking rod and located on a side of the locking rod away from the ejection plate.

6. The pneumatic head driving device for a water gel seismic charge of claim 3, wherein the locking seat further comprises a sliding block, and the sliding block is fixedly connected with the bracket and is positioned on one side of the bracket.

7. The pneumatic head driving device for a water gel seismic charge of claim 6, wherein the mounting base has a sliding groove, the sliding groove is arranged on the mounting base and is positioned on one side of the mounting base close to the sliding block, and the sliding groove is matched with the sliding block.

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