CN209774555U - Manual energy storage power ail shooter - Google Patents

Abstract

The utility model discloses a manual energy storage power nail shooting device, which comprises a movable slider, wherein the front end of the movable slider is provided with an impact rod, the impact rod is inserted into a nail shooting hole of a nail shooting nozzle, the movable slider is arranged in a movable slider sleeve, an energy storage spring is arranged in the movable slider sleeve at the rear end of the movable slider, two opposite side walls of the movable slider are respectively provided with pins, a sliding sleeve connected with a push rod is sleeved outside the movable slider sleeve, a hook sleeve is sleeved outside the sliding sleeve, one radial side of the hook sleeve is downwards provided with two hook arms, the front end of each hook arm is provided with a hook, a clearance distance is left between the hook sleeve and the sliding sleeve to ensure that the two radial sides of the hook sleeve can deflect and swing by taking the pin as the center, the two hooks catch the pins on the two side walls of the movable slider sleeve, the utility model utilizes spring energy storage, realizes the automatic release of the energy storage spring through a unhooking mechanism to push the impact rod, the working efficiency is improved, and the working difficulty and the labor intensity are reduced.

Description

Manual energy storage power ail shooter

Technical Field

The utility model relates to a hardware and tools, in particular to manual energy storage power ail shooter.

Background

The nail shooter is a hardware tool, is usually driven by a motor, needs to use a power supply, has some work occasions to have no power supply, and electric tool just can not use, needs artifical manual, just can not use exhaust nail, needs to break up exhaust nail, and manual operation often appears the nail askew, useless nail phenomenon, influences operating quality, has brought inconvenience for work.

Disclosure of Invention

An object of the utility model is to provide a manual energy storage power ail shooter utilizes the spring energy storage, realizes through a unhook mechanism that the energy storage is automatic to be released and promotes the impact bar striking vapour nail and realize shooting the nail.

In order to realize the purpose, the technical scheme of the utility model is that: a manual energy-storage power nail shooting device comprises a movable sliding block, wherein the front end of the movable sliding block is provided with an impact rod, the impact rod is inserted into a nail shooting hole of a nail shooting nozzle, the nail shooting hole of the nail shooting nozzle is connected with a nail shooting chamber, the movable sliding block is arranged in a movable sliding block sleeve, an energy-storage spring is arranged in the movable sliding block sleeve at the rear end of the movable sliding block, two opposite side walls of the movable sliding block respectively extend outwards to be provided with a pin post, two opposite side walls of the movable sliding block sleeve are provided with a slotted hole, the pin post extends out of the slotted hole, the slotted hole is used for guiding the pin post to move up and down, a sliding sleeve connected with a push rod is sleeved outside the movable sliding block sleeve, the outside of the sliding sleeve is also sleeved with a hook sleeve, the hook sleeve is connected with the sliding sleeve through a pin arranged oppositely, one side of the radial direction of the hook sleeve is downwards provided with two hook arms, the front ends of, the distance of the clearance enables the radial two sides of the hook sleeve to deflect and swing up and down by taking the pin as the center, a positioning rod is arranged between the tail end of an energy storage spring at the outer side of a movable sliding block sleeve at the radial other side of the hook sleeve opposite to the hook arm side and the hook sleeve, the hook sleeve is in a horizontal state under the initial state that the energy storage spring is not stored with energy when extending, a nail shooting hole of a nail shooting nozzle faces downwards to the surface of a shot nail workpiece, hooks of two hook arms hook pins on the outer side of the movable sliding block sleeve and catch pin columns extending outwards from two side walls of the movable sliding block, the pressing end of the push rod extends downwards to form the nail shooting nozzle, the push rod is pressed upwards from the pressing end of the push rod, a sliding sleeve connected with the push rod slides upwards along with the sliding sleeve, the sliding sleeve drives the hook sleeve to move upwards through the pin, meanwhile, the hook arms of the hook sleeve catch the movable sliding block move upwards together, the movable sliding, the push rod continues to be pressed downwards, the positioning rod enables the other side of the hook sleeve to deflect downwards, one side of the hook arm of the hook sleeve deflects upwards, then the hook of the hook arm of the hook sleeve is pulled out from the pin column position outwards from the two side walls of the movable sliding block, the energy storage spring releases energy to push the movable sliding block to move downwards rapidly, and the impact rod at the front end of the movable sliding block impacts the shooting nail to shoot out from the shooting nail hole of the shooting nail nozzle.

The scheme is further as follows: a balance spring is arranged on the movable sliding block sleeve between the tail end of the energy storage spring and the hook sleeve and is used for urging the hook sleeve to be always in a horizontal state when the hook sleeve is separated from the positioning rod.

The scheme is further as follows: the movable sliding block sleeve is arranged in a protective cover, a handheld handle is arranged on the outer side of the protective cover, the nail shooting mouth is arranged on the bottom end face of the protective cover, the push rod extends out of the bottom end face of the protective cover, a reset spring is arranged on the inner side of the bottom end face of the protective cover, the reset spring is arranged at a position corresponding to the positioning rod, and when the reset spring is used for pulling down the push rod, one side of the hook sleeve is enabled to deflect upwards, so that the hooks of the hook arms hook pin columns on two sides of the movable sliding block.

The scheme is further as follows: the length setting of locating lever or the length setting of push rod for the pressure of push rod pushes away to hold and pushes away to and penetrates nail mouth front end level or when penetrating nail mouth front end 1mm to 2mm apart from, and the couple of couple arm just unhook with activity slider both sides round pin post, and energy storage spring releases energy.

The scheme is further as follows: and an adjusting bolt is arranged in a sleeve hole of the movable slider at the tail end of the energy storage spring, the energy storage spring is pressed by the adjusting bolt, and the compression length of the energy storage spring is adjusted by the adjusting bolt.

The scheme is further as follows: the distance of leaving the clearance between couple cover and the sliding sleeve is 5mm at least.

The utility model has the advantages that: simple structure, convenient operation, easy dismounting utilizes the spring energy storage, realizes through a unhook mechanism that the energy storage is automatic releases and promotes the impact bar striking vapour nail and realize penetrating the nail, has improved work efficiency and quality, has reduced the work degree of difficulty and intensity of labour.

The present invention will be described in detail with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic structural view of the present invention;

3 FIG. 3 2 3 is 3 a 3 schematic 3 view 3 of 3 the 3 connection 3 between 3 the 3 hook 3 cover 3 and 3 the 3 sliding 3 sleeve 3 of 3 the 3 present 3 invention 3, 3 and 3 is 3 a 3 view 3 A 3- 3 A 3 of 3 FIG. 3 1 3; 3

Fig. 3 is a schematic view of the pin structure of the movable slider of the present invention, and the view from B to B in fig. 1.

Detailed Description

A manual energy storage power nail shooter is disclosed, as shown in figure 1, figure 2 and figure 3, the manual energy storage power nail shooter comprises a movable sliding block 1, the front end of the movable sliding block is connected with an impact rod 2, the impact rod is inserted into a nail shooting hole 301 of a nail shooting nozzle, the nail shooting hole of the nail shooting nozzle is connected with a nail shooting chamber 4, a nail shooting row 401 in the nail shooting chamber is conveyed into the nail shooting hole 301 through a pressure spring 402, the movable sliding block is arranged in a movable sliding block sleeve 5, wherein an energy storage spring 6 is arranged in the movable sliding block sleeve at the rear end of the movable sliding block, two opposite side walls of the movable sliding block are respectively extended outwards to be provided with a pin column 101, two opposite side walls of the movable sliding block sleeve are provided with slotted holes 501, the pin column extends out of the slotted holes, the slotted holes are used for guiding the pin column to move up and down, a sliding sleeve 7 connected with a push rod 701 is sleeved outside the movable sliding block sleeve 5, a hook sleeve 8 is, the hook sleeve is connected with the sliding sleeve through a pin 9 which is oppositely arranged, two hook arms 801 are downwards arranged on one radial side of the hook sleeve, a hook 801-1 is arranged at the front end of each hook arm 801, a gap a is reserved between the hook sleeve and the sliding sleeve, and the distance between the hook sleeve and the sliding sleeve which is reserved with the gap is at least 5 mm; the distance of the clearance a enables the radial two sides of the hook sleeve to deflect and swing up and down by taking the pin as the center, a positioning rod 10 is arranged between the tail end of an energy storage spring at the outer side of a movable sliding block sleeve at the radial other side of the hook sleeve opposite to the hook arm side and the hook sleeve, the upper end of the positioning rod 10 is fixed on the movable sliding block sleeve, the hook sleeve is in a horizontal state under the initial state that the energy storage spring is not extended to store energy, a nail ejecting hole of a nail ejecting nozzle faces the surface of a nailed workpiece downwards, hooks of two hook arms catch pin columns extending outwards from two side walls of the movable sliding block sleeve at the outer side of the movable sliding block sleeve, a nail ejecting nozzle is downwards extended from a pressing and pushing end of a push rod, the push rod is pressed upwards from the pressing and slides upwards along with a sliding sleeve connected with the push rod, the sliding sleeve drives the hook sleeve to move upwards through the pin, and meanwhile, the, the movable sliding block compresses the energy storage spring to store energy, when the end face of the other side of the radial direction of the hook sleeve touches the positioning rod, the figure 1 shows the state when the end face of the other side of the radial direction of the hook sleeve touches the positioning rod, at the moment, the push rod is continuously pressed downwards, at the moment, the positioning rod enables the other side of the hook sleeve to deflect downwards, one side of a hook arm of the hook sleeve deflects upwards, then a hook of the hook arm of the hook sleeve is pulled out from the pin column position outwards from the two side walls of the movable sliding block to be separated from the pin column, the energy storage spring releases energy to push the movable sliding block to move downwards rapidly, and an impact rod at the front end of the movable sliding block; and pulling down the push rod to hook the hook on the pin again to prepare for the next nail shooting.

For stabilization of the hooking pin: the balance spring 11 is arranged on the movable sliding block sleeve between the tail end of the energy storage spring and the hook sleeve and used for enabling the hook sleeve to be always in a horizontal state when the hook sleeve is separated from the positioning rod, and the balance spring enables the pull-down push rod to hook the hook on the pin column again more easily.

In the embodiment, for the convenience and safety of operation, the structure comprises that the movable sliding block sleeve is arranged in a protective cover 12, the protective cover can be cylindrical or square, a hand-held handle 1201 is arranged on the outer side of the protective cover, the hand-held handle is connected with the nail shooting chamber 4 through a connecting rod 13 to form a firm frame structure, the use is safer, the nail shooting nozzle is arranged on the bottom end face of the protective cover, the push rod extends out of the bottom end face of the protective cover, a return spring 14 is arranged on the inner side of the bottom end face of the protective cover, the return spring is arranged at a position corresponding to the positioning rod, and when the return spring is used for pulling the push rod downwards, one side of the hook sleeve is enabled to deflect upwards, so that the hook of the hook arm hooks.

In order to set safety and accuracy, the length of the positioning rod is set or the length of the push rod is set, so that the pressing push end of the push rod is pressed to be level with the front end of the nail shooting mouth or is 1mm to 2mm away from the front end of the nail shooting mouth, a hook of the hook arm is just unhooked from pin columns on two sides of the movable sliding block, and the energy storage spring releases energy.

In order to be able to adjust the energy storage spring: an adjusting bolt 15 is arranged in a sleeve hole of a movable sliding block at the tail end of the energy storage spring, an adjusting through hole 1202 is arranged on the protective cover, an adjusting tool penetrates through the adjusting bolt of the through hole to press the energy storage spring, and the compression length of the energy storage spring is adjusted through the adjusting bolt; the nail shooting device has the advantages that the nail shooting device is simple in structure, convenient to operate and disassemble, the spring is used for storing energy, the stored energy is automatically released through the unhooking mechanism to push the impact rod to impact the steam nail to shoot the nail, the working efficiency and the quality are improved, and the working difficulty and the labor intensity are reduced.

Claims (6)

1. A manual energy-storage power nail shooter comprises a movable sliding block, wherein the front end of the movable sliding block is provided with an impact rod, the impact rod is inserted into a nail shooting hole of a nail shooting nozzle, the nail shooting hole of the nail shooting nozzle is connected with a nail shooting bin, the movable sliding block is arranged in a movable sliding block sleeve, and the manual energy-storage power nail shooter is characterized in that an energy-storage spring is arranged in the movable sliding block sleeve at the rear end of the movable sliding block, two opposite side walls of the movable sliding block respectively extend outwards to be provided with a pin post, two opposite side walls of the movable sliding block sleeve are provided with a slotted hole, the pin post extends out of the slotted hole, the slotted hole is used for guiding the pin post to move up and down, a sliding sleeve connected with a push rod is sleeved outside the movable sliding block sleeve, the outside of the sliding sleeve is also sleeved with a hook sleeve, the hook sleeve is connected with the sliding sleeve through a pin arranged oppositely, a gap is reserved between the hook sleeve and the sliding sleeve, the radial two sides of the hook sleeve can deflect and swing up and down by taking a pin as a center due to the distance of the gap, the hook sleeve is in a horizontal state under the initial state that the energy storage spring does not store energy when the energy storage spring extends, a nail shooting hole of a nail shooting nozzle faces the surface of a shot nail workpiece downwards, hooks of two hook arms hook pin columns extending outwards from two side walls of the movable sliding block at the outer side of the movable sliding block sleeve, a pressing and pushing end of the push rod downwards extends out of the nail shooting nozzle, the push rod is pressed upwards from the pressing and pushing end of the push rod, the sliding sleeve connected with the push rod slides upwards along with the push rod, the sliding sleeve drives the hook sleeve to move upwards through the pin, meanwhile, the hook arms of the hook sleeve hook the movable sliding block to move upwards together, and the movable sliding block compresses the energy storage spring to store energy, when the end face of the other side of the radial direction of the hook sleeve touches the positioning rod, the push rod is continuously pressed downwards, the positioning rod enables the other side of the hook sleeve to deflect downwards, one side of the hook arm of the hook sleeve deflects upwards, then the hook of the hook sleeve hook arm is pulled out from the pin column position outwards from the two side walls of the movable sliding block to be separated from the pin column, the energy storage spring releases energy to push the movable sliding block to move downwards rapidly, and the impact rod at the front end of the movable sliding block impacts the shooting nail to be shot from the shooting nail hole of the shooting nail nozzle.

2. the manual energy-storage power nail shooter according to claim 1, characterized in that a balance spring is arranged on the movable slider sleeve between the tail end of the energy-storage spring and the hook sleeve, and the balance spring is used for urging the hook sleeve to be always in a horizontal state when the hook sleeve is separated from the positioning rod.

3. The manual energy-storing power nail shooter according to claim 1, wherein the movable slider sleeve is arranged in a shield, a hand-held handle is arranged on the outer side of the shield, the nail-shooting nozzle is arranged on the bottom end face of the shield, the push rod extends out from the bottom end face of the shield, a return spring is arranged on the inner side of the bottom end face of the shield, the return spring is arranged at a position corresponding to the positioning rod, and the return spring is used for urging one side of the hook sleeve to deflect upwards when the push rod is pulled downwards so that the hook of the hook arm hooks the pin columns on two sides of the movable slider.

4. The manual energy-storage power nail shooter according to claim 1, characterized in that the length of the positioning rod is set or the length of the push rod is set, so that when the pressing and pushing end of the push rod is pressed upwards to be flush with the front end of the nail shooting mouth or to be 1mm to 2mm away from the front end of the nail shooting mouth, the hook of the hook arm is just unhooked from the pin columns on the two sides of the movable sliding block, and the energy storage spring releases energy.

5. The manual energy-storage power nail shooter according to claim 1, characterized in that an adjusting bolt is arranged in a sleeve hole of a movable slider at the tail end of the energy-storage spring, the adjusting bolt presses the energy-storage spring, and the compression length of the energy-storage spring is adjusted through the adjusting bolt.

6. The manual energy-storing power nailer of claim 1, wherein the distance between said hook sleeve and said sliding sleeve leaving a gap is at least 5 mm.