CN107757218A - A kind of pneumatic block stamp of infrared control engraving - Google Patents

Abstract

The invention discloses a pneumatic hammer for infrared control engraving, which comprises a hammer shell, a hammer head casing and a shock absorbing sleeve. The tubes are clamped with each other through the sleeve slot, the left part of the outer surface of the punch shell is sleeved with a shock sleeve, and the right side of the inside of the punch shell is provided with an impact cavity, and the left side wall of the impact cavity The air guide tube is plugged in the middle of the impact chamber, and the impact piston is slidably connected to the inside of the impact chamber. The impact piston socketed on the right end of the air guide tube in the initial state is pushed by air pressure to hit the impact seat of the hammer head, and the punch obtains kinetic energy from the impact seat of the hammer head to complete the process. Once impacted, the impact seat of the hammer head rebounds under the influence of the tension of the return spring and the reaction force of the hammer head sleeve, the impact piston rebounds under the reaction force of the tension spring and the impact seat of the hammer head, and the air guide tube and the gas injection groove are closed again, thereby Do a reciprocating motion to complete the engraving.

Description

A kind of pneumatic block stamp of infrared control engraving

Technical field

The present invention relates to engraving tool technical field, the specially a kind of pneumatic block stamp of infrared control engraving.

Background technology

Engraving tool species is various used at present, and omnifarious graver can use in different situations, reach not Same engraving effect, but in industry is carved, most instrument can not all finish to workpiece, so most in some aspects Or traditional manual engraving is used, is wasted time and energy, efficiency is low, and mechanical impactor is since it is desired that the power such as autogamy motor Source, excessively heavy, edge sealing does not use.

The content of the invention

It is an object of the invention to provide a kind of pneumatic block stamp of infrared control engraving, to solve to carry in above-mentioned background technology The problem of going out.

To achieve the above object, the present invention provides following technical scheme：A kind of pneumatic block stamp of infrared control engraving, including The gentle shake set of block stamp shell, tup sleeve pipe, the right-hand member of the lateral wall of the drift shell offer sleeve pipe neck, and drift shell Bradyseism set, and drift are socketed with by the mutual clamping of sleeve pipe neck, the left part of the outer surface of the drift shell with tup sleeve pipe The right side opening of the inside of shell is provided with impact chamber, is plugged with airway tube in the middle part of the left side wall of the impact chamber, and impact chamber The upper side and lower side on the right surface of left side wall is welded with tension spring, and the internal slide of the impact chamber is connected with impact and lived Plug, offers gas injection groove in the middle part of the left end of the impact piston, and the upper side and lower side of the left side wall of impact piston with drawing Power spring is mutually welded, and pressure-releasing chamber is offered on the left of the inside of the drift shell, and pressure-releasing chamber is opened in the outside of airway tube, Connectivity slot is offered in the middle part of the right side wall of the pressure-releasing chamber, and pressure-releasing chamber is connected by connectivity slot with impact chamber, it is described to let out The top and bottom sidewall of pressure chamber and bradyseism set offers relief hole, and the left part of the inner chamber of the airway tube offers compression chamber, described The left end of airway tube is welded with pressure inlet, and the outer surface of the pressure inlet is socketed with outer hose, and the outer hose connection is outer Portion's air pump, the internal slide of the tup sleeve pipe are connected with tup striker, the right surface weldering of the side wall of the tup striker Back-moving spring is connected to, the right-hand member of the back-moving spring is welded in the outer surface of the right side wall of tup sleeve pipe, the tup striker Right-hand member run through the right surface of tup sleeve pipe, and the inner surface on the right side of tup striker is bolted with tup, the tup Right part inner chamber is inlaid with drift, and the upper side wall of the bradyseism set is fixedly connected with control button, and a left side for the upper side wall of bradyseism set End is inlaid with Infrared Projector, and the left end of the lower wall of the bradyseism set offers button cell groove, the button cell The lower end of the left side wall of groove is rotatably connected to cell through lid, and the left part of the lower wall of the bradyseism set is rotatably connected to cell through lid Bayonet lock, and cell through lid bayonet lock is located at the right side of cell through lid, the Infrared Projector, control button and button cell groove Between pass through wire keep electrical connection.

Preferably, the right-hand member of the outer surface of the gas port is socketed with sealing ring.

Preferably, the right part of the outer surface of the gas port offers shock resistance stress groove.

Preferably, the right-hand member of the outer surface of the pressure inlet is socketed with thermal viscosity cushion rubber.

Preferably, the left end of the outer surface of the tup striker is socketed with stable packing ring.

Compared with prior art, the beneficial effects of the invention are as follows：A kind of pneumatic block stamp of infrared control engraving, passes through outside The outside air pump of sebific duct connection, and infrared controlled switch is installed on air pump, start infrared signal transmitting by touching control button Device starts gas injection, the impact piston of airway tube right-hand member is socketed in by air pressure promotion original state to air pump transmitter trigger signal Impact hammer head striker, drift obtain kinetic energy from tup striker and complete once to hit, and tup striker is drawn by back-moving spring The reaction force of power and tup sleeve pipe influence resilience, impact piston by tension spring and tup striker reaction force resilience, Airway tube closes again with gas injection groove, with this completion engraving that moves reciprocatingly.

Brief description of the drawings

Fig. 1 is the outside drawing of the present invention；

The main view that Fig. 2 is the present invention cuts open figure；

Fig. 3 is the airway tube and pressure inlet junction detail view of the present invention；

Fig. 4 is the airway tube right-hand member mouth of pipe detail view of the present invention；

Fig. 5 is the tup striker of the present invention and detail view at block stamp cage connection.

In figure：1 block stamp shell, 2 tup sleeve pipes, 3 tup strikers, 4 tups, 5 drifts, 6 bradyseism sets, 7 control buttons, 8 Outer hose, 9 relief holes, 10 Infrared Projectors, 11 cell through lid bayonet locks, 12 cell through lid, 13 sleeve pipe necks, 14 buttons Battery case, 15 pressure inlets, 16 thermal viscosity cushion rubbers, 17 airway tubes, 18 impact pistons, 19 stable packing rings, 20 gas injection grooves, 21 reset bullet Spring, 22 tension springs, 23 compression chambers, 24 connectivity slots, 25 shock resistance stress grooves, 26 sealing rings, 27 pressure-releasing chambers, 28 impact chambers.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other under the premise of creative work is not made Embodiment, belong to the scope of protection of the invention.

Fig. 1-5 are referred to, the present invention provides a kind of technical scheme：A kind of pneumatic block stamp of infrared control engraving, including punching Hammer shell 1, tup sleeve pipe 2 and bradyseism set 6 into shape, the right-hand member of the lateral wall of the drift shell 1 offers sleeve pipe neck 13, and drift Shell 1 is socketed with bradyseism with tup sleeve pipe 2 by the 13 mutual clamping of sleeve pipe neck, the left part of the outer surface of the drift shell 1 Set 6, and the right side opening of the inside of drift shell 1 is provided with impact chamber 28, is plugged with and leads in the middle part of the left side wall of the impact chamber 28 Tracheae 17, and the upper side and lower side for impacting the right surface of the left side wall of chamber 28 is welded with tension spring 22, the impact chamber 28 Internal slide be connected with impact piston 18, offer gas injection groove 20 in the middle part of the left end of the impact piston 18, and impact and live The upper side and lower side of the left side wall of plug 18 is welded with the phase of tension spring 22, is offered on the left of the inside of the drift shell 1 Pressure-releasing chamber 27, and pressure-releasing chamber 27 is opened in the outside of airway tube 17, and connection is offered in the middle part of the right side wall of the pressure-releasing chamber 27 Groove 24, and pressure-releasing chamber 27 is connected by connectivity slot 24 with impact chamber 28, the top and bottom sidewall of the pressure-releasing chamber 27 and bradyseism set 6 is equal Relief hole 9 is offered, the left part of the inner chamber of the airway tube 17 offers compression chamber 23, and the left end of the airway tube 17 is welded with Pressure inlet 15, the outer surface of the pressure inlet 15 are socketed with outer hose 8, and the outer hose 8 connects outside air pump, the hammer The internal slide of head casing tube 2 is connected with tup striker 3, and the right surface soldered of the side wall of the tup striker 3 has reset bullet Spring 21, the right-hand member of the back-moving spring 21 are welded in the outer surface of the right side wall of tup sleeve pipe 2, the right side of the tup striker 3 End is bolted with tup 4 through the right surface of tup sleeve pipe 2, and the inner surface on the right side of tup striker 3, the tup 4 Right part inner chamber is inlaid with drift 5, and the upper side wall of the bradyseism set 6 is fixedly connected with control button 7, and the upper side wall of bradyseism set 6 Left end be inlaid with Infrared Projector 10, the left end of the lower wall of the bradyseism set 6 offers button cell groove 14, described The lower end of the left side wall of button cell groove 14 is rotatably connected to cell through lid 12, and the left part of the lower wall of the bradyseism set 6 rotates Cell through lid bayonet lock 11 is connected with, and cell through lid bayonet lock 11 is located at the right side of cell through lid 12, the Infrared Projector 10th, keep electrically connecting by wire between control button 7 and button cell groove 14, outside air pump is connected by outer hose 8, and Infrared controlled switch is installed on air pump, starts Infrared Projector 10 to air pump transmitter trigger by touching control button 7 Signal, start gas injection, promote original state to be socketed in the impact hammer primary drying of impact piston 18 of the right-hand member of airway tube 17 by air pressure and hit Seat 3, drift 5 obtain kinetic energy from tup striker 3 and complete once to hit, pulling force and hammer of the tup striker 3 by back-moving spring 21 The reaction force of head casing tube 2 influences resilience, impact piston 18 by tension spring 22 and tup striker 3 reaction force resilience, Airway tube 17 closes again with gas injection groove 20, with this completion engraving that moves reciprocatingly.

Specifically, in order to make the air-tightness of gas injection groove 20 more preferable, propulsion is stronger, the outer surface of the gas port 17 Right-hand member is socketed with sealing ring 26.

Specifically, it is described to lead in order to prevent the impact piston 18 of resilience hits airway tube 17 repeatedly from causing nozzle distortion The right part of the outer surface of stomata 17 offers shock resistance stress groove 25.

Specifically, in order to allow outer hose 8 and pressure inlet 15 connect it is even closer, the outer surface of the pressure inlet 15 Right-hand member is socketed with thermal viscosity cushion rubber 16.

Specifically, in order to prevent tup striker 3 hit when above and below shake, influence carve accuracy, the tup The left end of the outer surface of striker 3 is socketed with stable packing ring 19.

Operation principle：When in the use of the present invention, connect outside air pump by outer hose 8, and it is provided with air pump red Outer control switchs, and starts Infrared Projector 10 to air pump transmitter trigger signal by touching control button 7, starts gas injection, Original state is promoted to be socketed in the impact hammer head striker 3 of impact piston 18 of the right-hand member of airway tube 17 by air pressure, drift 5 is from tup Striker 3 obtains kinetic energy and completes once to hit, reaction of the tup striker 3 by the pulling force and tup sleeve pipe 2 of back-moving spring 21 Power influences resilience, and impact piston 18 is by the reaction force resilience of tension spring 22 and tup striker 3, airway tube 17 and gas injection groove 20 close again, and with this completion engraving that moves reciprocatingly, the right-hand member of the outer surface of gas port 17 is socketed with sealing ring 26, allow gas injection The air-tightness of groove 20 is more preferable, and propulsion is stronger, and the right part of the outer surface of gas port 17 offers shock resistance stress groove 25, anti-non-return The impact piston 18 of bullet hits airway tube 17 and causes nozzle distortion repeatedly, and the right-hand member of the outer surface of pressure inlet 15 is socketed with thermal viscosity Cushion rubber 16, allows outer hose 8 and pressure inlet 15 connects even closer, and the left end of the outer surface of tup striker 3 is socketed with stabilization Packing ring 19, prevent tup striker 3 hit when above and below shake.

Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of changes, modification can be carried out to these embodiments, replace without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (5)

1. a kind of infrared control engraving pneumatic block stamp, including block stamp shell (1), tup sleeve pipe (2) and bradyseism set (6), it is special Sign is：The right-hand member of the lateral wall of the drift shell (1) offers sleeve pipe neck (13), and drift shell (1) and hammer head sheath Pipe (2) is socketed with bradyseism set (6) by sleeve pipe neck (13) mutual clamping, the left part of the outer surface of the drift shell (1), and The right side opening of the inside of drift shell (1) is provided with impact chamber (28), is plugged with and leads in the middle part of the left side wall of the impact chamber (28) Tracheae (17), and the upper side and lower side for impacting the right surface of the left side wall of chamber (28) is welded with tension spring (22), the punching The internal slide for hitting chamber (28) is connected with impact piston (18), and gas injection groove is offered in the middle part of the left end of the impact piston (18) (20), and the upper side and lower side of the left side wall of impact piston (18) is mutually welded with tension spring (22), the drift shell (1) Inside on the left of offer pressure-releasing chamber (27), and pressure-releasing chamber (27) is opened in the outside of airway tube (17), the pressure-releasing chamber (27) connectivity slot (24) is offered in the middle part of right side wall, and pressure-releasing chamber (27) is connected by connectivity slot (24) with impact chamber (28) Logical, the top and bottom sidewall of the pressure-releasing chamber (27) and bradyseism set (6) offers relief hole (9), the inner chamber of the airway tube (17) Left part offer compression chamber (23), the left end of the airway tube (17) is welded with pressure inlet (15), the pressure inlet (15) Outer surface is socketed with outer hose (8), the outside air pump of outer hose (8) connection, the internal slide of the tup sleeve pipe (2) Tup striker (3) is connected with, the right surface soldered of the side wall of the tup striker (3) has back-moving spring (21), described multiple The right-hand member of position spring (21) is welded in the outer surface of the right side wall of tup sleeve pipe (2), and the right-hand member of the tup striker (3) runs through The right surface of tup sleeve pipe (2), and the inner surface on the right side of tup striker (3) is bolted with tup (4), the tup (4) Right part inner chamber be inlaid with drift (5), the upper side wall of the bradyseism set (6) is fixedly connected with control button (7), and bradyseism set (6) left end of upper side wall is inlaid with Infrared Projector (10), and the left end of the lower wall of the bradyseism set (6) offers knob Battery case (14) is detained, the lower end of the left side wall of the button cell groove (14) is rotatably connected to cell through lid (12), the bradyseism The left part for covering the lower wall of (6) is rotatably connected to cell through lid bayonet lock (11), and cell through lid bayonet lock (11) is located at cell through lid (12) right side, kept between the Infrared Projector (10), control button (7) and button cell groove (14) by wire Electrical connection.

A kind of 2. pneumatic block stamp of infrared control engraving according to claim 1, it is characterised in that：The gas port (17) The right-hand member of outer surface be socketed with sealing ring (26).

A kind of 3. pneumatic block stamp of infrared control engraving according to claim 1, it is characterised in that：The gas port (17) The right part of outer surface offer shock resistance stress groove (25).

A kind of 4. pneumatic block stamp of infrared control engraving according to claim 1, it is characterised in that：The pressure inlet (15) The right-hand member of outer surface be socketed with thermal viscosity cushion rubber (16).

A kind of 5. pneumatic block stamp of infrared control engraving according to claim 1, it is characterised in that：The tup striker (3) left end of outer surface is socketed with stable packing ring (19).