CN109835096A - With the engraving machine and its application for removing airway dysfunction - Google Patents

Abstract

The present invention, which provides one, has the engraving machine for removing airway dysfunction and its application, wherein the engraving machine includes an at least graver, for installing the engraving machine host and a power supply adapting device of the graver.The engraving machine host includes a cutter head mounting assembly, one shell, and neighboringly it is set to a depassing unit of the cutter head mounting assembly, wherein the graver is arranged at the cutter head mounting assembly, the cutter head mounting assembly is arranged at the shell, wherein the power supply adapting device is electrically connected to the cutter head mounting assembly of the engraving machine host, provides suitable electric energy to the engraving machine host.

Description

With the engraving machine and its application for removing airway dysfunction

Technical field

The present invention relates to an engraving tools, in more detail, are related to one and are applied to the tool that plastics or rubber product are carved There are the engraving machine except airway dysfunction and its application.

Background technique

On the surface of plastic products either rubber product, the carved pattern, text, special especially on the surface of tire Symbol is always all without good method.A kind of more original method is exactly that operator is either carved using milling tools Knife etc. is directly carved on the surface of machined article, by required pattern or decorative pattern direct engraving in machined article Surface.Tool used in this engraving process is fairly simple, but is also limited to the operative skill of operator, so institute Decorative pattern, the pattern that can be carved etc. is relatively simple, and precision is also relatively low.On the other hand, it can generate in the grinding process very much Fine particle, this tiny particle drift in air not only to pollution environment, also can cause to compare to the health of operator Large effect.Application condition existing for this mode carved manually using milling tools is easy to processed object greatly Product cause larger damage, and working efficiency is also very low, therefore can not be used by majority.

As shown in Figure 1, a kind of tire engraving machine is disclosed in Chinese utility model patent CN201366732Y, wherein described Tire engraving machine includes a transformer 1 and cutter 2, and the cutter 2 includes a manipulator shell 3, a switch and its drive Motivation structure, metal tool apron and tire carved metal blade 4.The metal tool apron includes a left semimetal tool apron 5 and right semimetal Tool apron 6, during the work time, the tire carved metal blade 4 are installed in the left semimetal knife of the metal tool apron In the mounting hole 130 of seat 5 and the right semimetal tool apron 6.One output electrode of the transformer 1 is by the switch machine Driving mechanism is electrically connected with left semimetal tool apron 5, another output electrode of the transformer 1 and tells right semimetal tool apron 6 The left semimetal tool apron 5 and right semimetal tool apron 6, are electrically connected by electrical connection by the carved metal blade 4, from And form primary Ioops.When the power supply of the transformer 1 is switched on, pressed to the metal tool apron one power appropriate, so that described Switch and its hard contact of driving mechanism are switched on, and the carved metal blade 4 is heated by the method for thermal cutting to wheel Cut or carved suitable decorative pattern in tire surface.

This traditional engraving machine meets operator in the surface engraving decorative pattern of tire product, spy to a certain extent The use demand of different pattern.But there is also certain problems in use for this traditional engraving machine.Firstly, this The switch and its driving mechanism of traditional engraving machine are to connect circuit by hard contact, but in use, Due to being point contact when this hard contact connects circuit, so contacting travel is short, it is easy to cause connecing for circuit It touches bad.On the other hand, the switch of the engraving machine and its hard contact of driving mechanism are easy to when being powered There is a phenomenon where sparkings, fever, not only influence the service life of the engraving machine in this way, also easily cause security risk.

Secondly, the dress tool apron of traditional engraving machine is to be slidably mounted on the left semimetal tool apron and right half gold Belong to tool apron, therefore in use it is adjustable it is described dress tool apron relative position to adapt to opening for the tire cutting blade Mouth width degree.But the dress tool apron of this traditional engraving machine be easy in use from the left semimetal tool apron and The both ends of the right semimetal tool apron fall off and lose, therefore bigger trouble is brought to user.

Traditional engraving machine passes through the pressing metal tool apron in use, to make the switch and its drive The hard contact of dynamic device is contacted and is connected to, but during real work, user is difficult to recognize the engraving machine Working condition, that is to say, that user is difficult to learn whether the engraving machine is in status of electrically connecting during operation.

On the other hand, due to traditional engraving machine be by way of thermal cutting to machined article carry out engraving or Person's cutting, when the metal incision blade being unavoidably heated in process is machined article contact The gas of sharp aroma can be generated, especially when the engraving machine works long hours, the metal incision of the engraving machine The temperature of blade is high and generates a large amount of pernicious gas or smog.This gas and smog not only stop the sight of operator And normal operating is influenced, and certain shadow can also be caused to the body of user by sucking this pernicious gas and smog for a long time It rings.

Summary of the invention

It is an object of the present invention to provide a kind of engraving machine with except airway dysfunction and its applications, wherein the engraving The pernicious gas generated during engraving and smog are timely removed or are dispersed by machine, avoid these pernicious gases and cigarette The normal operating of mist influence operator.

It is another object of the present invention to provide a kind of engraving machine with except airway dysfunction and its applications, wherein the carving The pernicious gas generated during engraving and smog timely removed or dispersed by machine quarter, so that these be avoided to have poison gas Body or smog are sucked and are endangered the health of operator by operator.

It is another object of the present invention to provide a kind of engraving machine with except airway dysfunction and its applications, wherein the carving Quarter, machine controlled energization by microswitch, and contacting travel is long, avoids generating spark in the case where energization, not only improves institute The service life of engraving machine is stated, the physical safety of operator is also protected.

It is another object of the present invention to provide a kind of engraving machine with except airway dysfunction and its applications, wherein the carving The push type broach sheet devices for carving machine host are slideably limited to the front end of fixed tool apron device, avoid the push type broach sheet devices from The fixed tool apron device is detached from.

It is another object of the present invention to provide a kind of engraving machine with except airway dysfunction and its applications, wherein the carving Quarter machine cutter head mounting assembly include an at least push type broach support device, wherein the push type broach support device outwards supports the pressure Blade, so that the pushing broach and the tool apron form a gap, convenient for graver is mounted on the press cutter device and described Between tool apron.

Another object of the present invention is to provide a kind of engraving machine with except airway dysfunction and its applications, wherein the engraving Machine host includes a work condition indicator, wherein the work of the working condition suggestion device and the cutter head mounting assembly State is identical, that is to say, that when the engraving cutter head mounting assembly in the energized state, the work condition indicator can be shown Show indication signal, to prompt the working condition of operator at this time.

Another object of the present invention is to provide a kind of engraving machine with except airway dysfunction and its applications, have no need to change institute State the primary structure of engraving machine and realize the engraving machine during the work time except airway dysfunction.

Another object of the present invention is to provide a kind of engraving machine with except airway dysfunction and its applications, wherein more than realizing It does not need to design the engraving machine complicated mechanical structure using purpose, therefore the present invention successfully provides a kind of economical and effective Solution.

One aspect under this invention, the present invention further provides an engraving machine hosts comprising:

One shell；

One cutter head mounting assembly, wherein the cutter head mounting assembly is arranged at the shell；And

One depassing unit, wherein the depassing unit is neighboringly set to the cutter head mounting assembly.

According to one embodiment of present invention, the shell has a ventilation window, and the ventilation window is adjacent to the knife Head mounting assembly, wherein the depassing unit is arranged at the inside of the shell, and the air-flow that the depassing unit generates The ventilation window can be flowed through.

According to one embodiment of present invention, the depassing unit includes a depression generator, and the negative pressure fills The inside for being arranged at the shell is set, and the air-flow that the depression generator is formed in a manner of generating negative pressure can flow Through the ventilation window.

According to one embodiment of present invention, the depassing unit further comprises a gas exhausting device, the gas Discharger is connected to the depression generator.

According to one embodiment of present invention, the shell has an afflux portion, and is further provided with an at least pressurizing air Between, wherein the afflux portion is formed in the shell close to the position of the cutter head mounting assembly, wherein the depassing unit increases The gas atmosphere of the big plenum space, forms air-flow by the plenum space at the afflux portion.

According to one embodiment of present invention, the shell is further provided with an at least suction hole, wherein the suction hole It is connected to external environment, wherein the gas of external environment is absorbed into the pressurizing air by the suction hole by the depassing unit Between, to increase the gas pressure intensity of the plenum space.

Other side under this invention has the engraving machine except airway dysfunction the present invention further provides one comprising:

An at least graver；With

One engraving machine host, wherein the engraving machine main body further comprises a shell, a cutter head mounting assembly and one Depassing unit, wherein the cutter head mounting assembly is arranged at the shell, the depassing unit is neighboringly set to described Cutter head mounting assembly, wherein the graver is arranged at the cutter head mounting assembly.

According to one embodiment of present invention, the shell has a ventilation window, and the ventilation window is adjacent to the knife Head mounting assembly, wherein the depassing unit is arranged at the inside of the shell, and the air-flow that the depassing unit generates The ventilation window can be flowed through.

According to one embodiment of present invention, the depassing unit includes a depression generator, and the negative pressure fills The inside for being arranged at the shell is set, and the air-flow that the depression generator is formed in a manner of generating negative pressure can flow Through the ventilation window.

According to one embodiment of present invention, the depassing unit further comprises a gas exhausting device, the gas Discharger is connected to the depression generator.

According to one embodiment of present invention, the cutter head mounting assembly includes a tool apron and a press cutter device, wherein institute It states tool apron and is arranged at the shell, the press cutter device is arranged at the tool apron, and the graver is removably mounted Between the press cutter device and the tool apron.

According to one embodiment of present invention, the graver further comprises a power supply adapting device, wherein described remove Device of air is connected to the power supply adapting device.

Other side under this invention, the present invention further provides the methods carved on a product, wherein the carving Carving method includes the following steps:

(a) graver with the product into contact is heated；With

(b) gas that the graver is generated when carving the product is removed.

According to one embodiment of present invention, in the step (b), to generate air-flow near the graver Mode removes the gas that the graver is generated when carving the product.

According to one embodiment of present invention, in the above-mentioned methods, it is produced near the graver in a manner of air blowing Anger stream, to remove the gas that the graver is generated when carving the product.

According to one embodiment of present invention, in the above-mentioned methods, it is produced near the graver in a manner of air-breathing Anger stream, to remove the gas that the graver is generated when carving the product.

Other side under this invention, the present invention further provides the manufacturing methods of an engraving machine host, wherein described Manufacturing method includes the following steps:

(A) one cutter head mounting assembly of installation is in a shell；With

(B) depassing unit is neighboringly set in the cutter head mounting assembly, the engraving machine host is made.

According to one embodiment of present invention, in the step (B), with the depassing unit and the cutter head installation group The adjacent mode of part installs the depassing unit in the shell.

According to one embodiment of present invention, in the above-mentioned methods, the depassing unit is installed in the inside of the shell, And the air-flow for allowing the depassing unit to be formed flows through a ventilation window of the neighbouring cutter head mounting assembly of the shell.

By the understanding to subsequent description and attached drawing, further aim of the present invention and advantage will be fully demonstrated. These and other purposes of the invention, feature and advantage, by following detailed descriptions, drawings and claims are able to abundant body It is existing.

Detailed description of the invention

Fig. 1 is traditional engraving machine schematic device of the prior art.

Fig. 2 is the schematic diagram of an engraving machine of the first preferred embodiment according to the present invention.

Fig. 3 is the dismantling schematic diagram of the engraving machine of above-mentioned preferred embodiment according to the present invention.

Fig. 4 is the exploded view of the engraving machine of above-mentioned preferred embodiment according to the present invention.

Fig. 5 A is the cross-sectional view of the switch block of the engraving machine of above-mentioned preferred embodiment according to the present invention, wherein institute Switch block is stated to be in an off state.

Fig. 5 B is the cross-sectional view of the switch block of the engraving machine of above-mentioned preferred embodiment according to the present invention, wherein institute It is in the conductive state to state switch block.

Fig. 6 is the schematic diagram of the graver of the engraving machine of above-mentioned preferred embodiment according to the present invention.

Fig. 7 is the schematic diagram of the engraving machine of the first variant embodiment of above-mentioned preferred embodiment according to the present invention.

Fig. 8 is the schematic diagram of an engraving machine of the second variant embodiment of above-mentioned preferred embodiment according to the present invention.

Fig. 9 is the overall schematic of the engraving machine of the second preferred embodiment according to the present invention.

Figure 10 is the dismantling schematic diagram of the engraving machine of above-mentioned preferred embodiment according to the present invention.

Figure 11 is the exploded view of the engraving machine of above-mentioned preferred embodiment according to the present invention.

Figure 12 A is the cross-sectional view of the cutter head mounting assembly of the engraving machine of above-mentioned preferred embodiment according to the present invention.

Figure 12 B is the cross-sectional view of the cutter head mounting assembly of the engraving machine of above-mentioned preferred embodiment according to the present invention.

Figure 13 A is the cross-sectional view of the engraving machine host of the engraving machine of above-mentioned preferred embodiment according to the present invention, Described in switch block be in an off state.

Figure 13 B is the cross-sectional view of the engraving machine host of the engraving machine of above-mentioned preferred embodiment according to the present invention, Described in switch block it is in the conductive state.

Figure 14 is the entirety of the first variant embodiment of the engraving machine of above-mentioned preferred embodiment according to the present invention Schematic diagram.

Figure 15 is the signal of the second variant embodiment of the engraving machine of above-mentioned preferred embodiment according to the present invention Figure.

Figure 16 is the connection of the second variant embodiment of the engraving machine of above-mentioned preferred embodiment according to the present invention Schematic diagram.

Figure 17 A and Figure 17 B are the overall schematics of the engraving machine of third preferred embodiment according to the present invention.

Figure 18 is the decomposition diagram of the engraving machine of above-mentioned preferred embodiment according to the present invention.

Figure 19 is the cross-sectional view of the working method of the engraving machine of above-mentioned preferred embodiment according to the present invention.

Specific embodiment

It is described below for disclosing the present invention so that those skilled in the art can be realized the present invention.It is excellent in being described below Embodiment is selected to be only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It defines in the following description Basic principle of the invention can be applied to other embodiments, deformation scheme, improvement project, equivalent program and do not carry on the back Other technologies scheme from the spirit and scope of the present invention.

It will be understood by those skilled in the art that in exposure of the invention, term " longitudinal direction ", " transverse direction ", "upper", The orientation or position of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" Relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description of the present invention and simplification of the description, rather than The device or element of indication or suggestion meaning must have a particular orientation, be constructed and operated in a specific orientation, therefore above-mentioned Term is not considered as limiting the invention.

It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment, The quantity of one element can be one, and in a further embodiment, the quantity of the element can be it is multiple, term " one " is no It can be interpreted as the limitation to quantity.

With reference to Figure of description of the invention attached drawing 2 to Fig. 5 B, an engraving machine under this invention is in following description In be set forth, wherein the engraving machine be used for the surface of the plastics either products such as rubber carve specific decorative pattern, Symbol, text etc., it is preferable that the engraving machine is used for the engraving of automobile or the surface of tyre lines of other vehicles.

According to shown in Fig. 2, the engraving machine includes a power supply adapting device 10, and one carves machine host 20, and at least one Graver 30, wherein the graver 30 is detachably mounted on the engraving machine host 20,20 quilt of engraving machine host It is connected to the power supply adapting device 10, so that the engraving machine host 20 is under the power supply function of the power supply adapting device 10 The graver 30 is heated, cuts machined article, such as cutting automotive wheels will pass through the graver 30 being heated Tire.In other words, the engraving machine is that machined article is carved and processed using the form of thermal cutting.

The power supply adapting device 10 is arranged to the engraving machine host 20 and provides suitable electric energy, is mounted with heating The graver 30 on the engraving machine host 20.In detail, the power supply adapting device 10 is the engraving owner Machine 20 provides low pressure, the lasting electric energy of high current, to maintain the engraving machine host 20 to work long hours.Correspondingly, the electricity Source adaptive device 10 during use, it is defeated outward can to adjust the power supply adapting device 10 according to the actual conditions used The size of voltage and electric current out.Preferably, the power supply adapting device 10 is a transformer, wherein the power adaptation fills A power supply device, such as domestic power supply can be electrically connected to by setting 10, then by the electric energy of high voltage via the power adaptation Device 10 is converted into the electric energy for the low-voltage that the engraving machine host 20 is applicable in.

The power supply adapting device 10 is electrically connected to a power supply device input terminal and a power supply device output end, wherein institute It states power supply adapting device 10 and a power supply is electrically connected to by the power supply device input terminal, the power supply device output end is set It is electrically connected the engraving machine host 20 and the power supply adapting device 10.

According to shown in Fig. 3, wherein the engraving machine host 20 includes a hand-held part shell 21, one carves cutter head mounting assembly 22, a switch block 23 and a depassing unit 24 are used to accommodate wherein the hand-held part shell 21 has an accommodation space With the support switch block 23 and the depassing unit 24, the engraving cutter head mounting assembly 22, which is set, protrudes from the hand On front side of the upper end for holding portion's shell 21.The hand-held part shell 21 is suitable for operator and holds and operate the hand-held part shell 21 To be carved and be cut machined article.Preferably, the hand-held part shell 21 is " L " type handle, wherein described hand-held Portion's shell 21 include a upper end shell 211 and one from the upper end shell extend downwardly made of lower end shell 212, Described in upper end shell 211 form the accommodation space, be used to accommodate and support the switch block 23 and the degasification Device 24.Correspondingly, the lower end shell 212 is a hand-held handle end, is suitable for operator and holds, wherein the lower end Portion's shell 212 supports the upper end shell 211, so that operator carries out when holding lower end shell 212 Operation.

The hand-held part shell 21 further comprises a first shell 213 and a second shell 214, wherein the first shell Body 213 and the second shell 214 are mutually installed, so that institute is collectively formed in the first shell 213 and the second shell 214 State the accommodation space of hand-held part shell 21.Preferably, the first shell 213 of the hand-held part shell 21 and described Two shells 214 are symmetrically disposed on together, and the switch block 23 is fixedly mounted in the institute of the hand-held part shell 21 State the inside of first shell 213.

The hand-held part upper housing 211 of the hand-held part shell 21 and the hand-held part lower case 212 and described One shell 213 and the second shell 214 collectively constitute the shell with the engraving machine except airway dysfunction.The shell is by institute It states engraving machine host 20 and is wrapped in inside, the engraving machine host 20 is installed in the shell.

There is the upper end shell 211 of the hand-held part shell 21 switch block opening 215 and an air draft to go out Mouth 216, wherein switch block opening 215 and the wind exhausting outlet 216 are formed on the described of the hand-held part shell 21 External environment is connected to the accommodation space of the hand-held part shell 21 by the front end of upper end shell 211.The switch block is opened Mouth 215 allows the switch blocks 23 mobile in the accommodation space and external environment.Preferably, 216 He of wind exhausting outlet It is interconnected between the switch block opening 215, the wind exhausting outlet 216 is arranged on the top of the switch block 215. Correspondingly, the gas that the wind exhausting outlet 216 allows the depassing unit 24 to generate outwardly is discharged from the accommodation space, or Person allows the depassing unit 24 to extract gas from external environment.In other words, the wind exhausting outlet 216 corresponds to described remove The corresponding position in the accommodation space of the hand-held part shell 21 of device of air 24, so that the depassing unit 24 is by institute It states the pumping of wind exhausting outlet 216 or blows outward.

As shown in Figures 2 and 3, the engraving cutter head mounting assembly 22 with the engraving machine except airway dysfunction is set In the front position of the switch block 23, integral structure is formed with the switch block 23.When the engraving cutter head is installed When component 22 is by a motive force backward, the engraving cutter head mounting assembly 22 drives the switch block 23 backward It is mobile.

In detail, the engraving cutter head mounting assembly 22 includes a fixed tool apron device 221 and a push type broach sheet devices 222, wherein the pushing broach device 222 is movably slidably disposed on the front end of the fixed tool apron device 221, Just it is directed towards the one end in outside.The fixed tool apron device 221 and the push type broach sheet devices 222 be used to be removably secured institute State graver 30.Further, the fixed tool apron device 221 includes one first fixed tool apron 2211 and one second fixing cutter Seat 2212, wherein the described first fixed tool apron 2211 and the second fixed tool apron 2212 are fixed on the switch block 23 Front position.Between the fixed tool apron 2211 of described the first of the fixed tool apron device 221 and the second fixed tool apron 2212 An interstitial spaces 2213 are formed, wherein the described first fixed tool apron 2211 and described second are fixed tool apron by the spaced slot 2212 is insulated spaced apart, to prevent the described first fixed tool apron 2211 and second fixed 2212 portion of being in contact with each other of the tool apron warp Cross the graver 30 and direct short-circuit.It may occur to persons skilled in the art that described the of the fixed tool apron 221 An insulating layer can be set in the interstitial spaces 2213 between one fixed tool apron 2211 and the second fixed tool apron 2212, Described first fixed tool apron 2211 and the second fixed tool apron 2212 are spaced apart with more stable.

Preferably, the described first fixed tool apron 2211 and the second fixed tool apron 2212 are symmetrically disposed in the switch The front end of component 23.It is noted that the fixed tool apron device 221 and the pressure of the engraving cutter head mounting assembly 22 Blade apparatus 222 is the material to conduct electricity very well, such as metallic copper, iron.In other words, the engraving cutter head mounting assembly 22 is The lesser device of resistance ratio, so that the engraving cutter head mounting assembly 22 will not generate under the action of electric current in use Too big heat.

Correspondingly, the push type broach sheet devices 222 include one first pushing broach 2221 and one second pushing broach 2222, wherein institute State the front end that the first pushing broach 2221 is movably disposed in the described first fixed tool apron 2211, second pushing broach 2222 It is movably disposed in the front end of the described second fixed tool apron 2212.It is noted that 2221 He of the first pushing broach The interval of second pushing broach 2222 setting, it is spaced-apart each other, avoid first push type broach during use Piece 2221 and second pushing broach 2222 directly contact and short circuit occur.

In the first preferred embodiment of the invention, the institute of the fixed tool apron 221 of the engraving cutter head mounting device 22 State the first pushing broach 2221 and the institute of the first fixed tool apron 2211 and the second fixed tool apron 2212 and the pushing broach 222 The structure and function for stating the second pushing broach 2222 is essentially identical, and is substantially symmetrical set, so in following description By taking the described first fixed tool apron 2211 and first pushing broach 2221 as an example, it may occur to persons skilled in the art that, institute Stating the second fixed tool apron 2212 and second pushing broach 2222 has same structure, and is symmetrically disposed in the graver The both ends of head mounting device 22.

First pushing broach 2221 is slidably disposed on the front end of the described first fixed tool apron 2211.In detail It says, first pushing broach 2221 can horizontally slip in the front end of the described first fixed tool apron 2211, different to adapt to installation The graver 30 of spanwise dimension.The engraving cutter head mounting device 22 still further comprises two pushing broach fixing pieces 223 and at least Two pushing broach locating pieces 224, wherein the pushing broach fixing piece 223 and the pushing broach locating piece 224 are on chip by the push type broach It sets 222 and is slidably disposed on the fixed tool apron 221.Correspondingly, first pushing broach of the push type broach sheet devices 222 2221 have a pushing broach sliding slot 22211, wherein the pushing broach sliding slot 22211 allows the pushing broach fixing piece 223 and institute It states pushing broach locating piece 224 to pass through, and allows the pushing broach fixing piece 223 and the pushing broach locating piece 224 in the pressure It is moved left and right in blade sliding slot 22211, first pushing broach 2221 of the push type broach sheet devices 22 is mounted slidably In the front end of the described first fixed tool apron 2211.Preferably, the pushing broach sliding slot 22211 is a strip through-hole, the push type broach The strip through-hole of piece sliding slot 22211 is able to allow first pushing broach 2221 in the pushing broach fixing piece 223 and the pressure It horizontally slips under the restriction effect of blade locator 224 in the front end of the described first fixed tool apron 2211.

The right and left of first pushing broach 2221 and second pushing broach 2222 in the front end of the fixed tool apron 221 To moveable sliding, to install the graver 30 of different wide cut sizes.Correspondingly, the pushing broach fixing piece 223 is by institute The front end that the first pushing broach 2221 is movably fixed on the described first fixed tool apron 2211 is stated, and then prevents the pushing broach 2221 are detached from from the front end of the described first fixed tool apron 2211.The pushing broach locating piece 224 is arranged by adjustable described First fixed tool apron 2211, is removably attached to described first for the graver 30 by the pushing broach locating piece 224 Between pushing broach 2221 and the first fixed tool apron 2211.Preferably, the pushing broach locating piece 224 is a set screw, The graver 30 first pushing broach 2221 and described first is fixed on by the rotation pushing broach locating piece 224 to consolidate Between stationary knife seat 2211.Correspondingly, when needing to take out graver 30, it is only necessary to by the pushing broach locating piece 224 counter-rotatings.Preferably due to which the graver 30 is installed in the inside of the first push type broach sheet devices 222, institute The outside of the described first fixed tool apron 2211,224 quilt of pushing broach locating piece are arranged on the pushing broach fixing piece 223 The inside of described first fixed tool apron 2211 is set, so that the pushing broach locating piece 224 can be steadily by the engraving Knife 30 is clamped between the described first fixed tool apron 2211 and first pushing broach 2221.Preferably, the pushing broach is fixed The described first fixed tool apron 2211 is unremovably arranged in part 223, so as to avoid first pushing broach 2221 from institute The front end for stating the first fixed tool apron 2211 is detached from.It is fixed that the pushing broach locating piece 224 is removably disposed in described first The front end of tool apron 2211, easily to install the graver 30 in the described first fixed tool apron 2211 and first pushing broach Between 2221.

It will be appreciated by persons skilled in the art that the pushing broach fixing piece 223 is arranged on the fixed tool apron 221 Outside so that bigger relative distance can be obtained between the pushing broach 222, to install the described of different wide cut sizes Graver 30.It is noted that one end of the pushing broach fixing piece 223 is fixed on the fixed tool apron 221, and institute The other end for stating pushing broach fixing piece 223 passes through the pushing broach sliding slot 22211 of the pushing broach 222 for the pushing broach 222 are movably fixed on the front end of the fixed tool apron 221, prevent the pushing broach 222 sliding from the fixed tool apron 221 It is de-.

It is noted that there is a gap between first pushing broach 2221 and the first fixed tool apron 2211, In order to the installation of the graver 30.In order to maintain between first pushing broach 2221 and the first fixed tool apron 2211 Gap, and be easily installed the graver 30 between the fixed tool apron device 221 and the push type broach sheet devices 222, institute State engraving cutter head mounting assembly 22 further comprise two pushing broach supporting elements 225, wherein the pushing broach supporting element 225 respectively by Setting is between the described first fixed tool apron 2211 and first pushing broach 2221 and described second fixes tool apron 2212 and institute State between the second pushing broach 2222, with support formed between the push type broach sheet devices 222 and the fixed tool apron 221 it is described between Gap, and then it is convenient for the installation of the graver 30.The pushing broach supporting element 225 is an elastic device, when appropriate by one Pressure can be compressed, and in the state of extension, it is outside that the pushing broach supporting element 225 gives the push type broach sheet devices 222 1 Support force forms the gap between the push type broach sheet devices 222 and the fixed tool apron 221 to support, and then is convenient for The graver 30 is installed.Preferably, the pushing broach supporting element 225 is arranged on the intermediate direction of the fixed tool apron 221 The side of the pushing broach 222, and the pushing broach supporting element 225 is protruded outward in the fixed tool apron 221, so as to described Pushing broach supporting element 225 provides an outside support force to the push type broach sheet devices 222.It is highly preferred that the pushing broach support Part 225 further comprises a spring original part 2251 and a ball 2252, wherein the spring original part 2251 be arranged on it is described solid The inside of stationary knife seat 221, to ball 2252 described in outer support, so that the ball 2252 is to push type broach sheet devices described in outer support 222.Correspondingly, the ball 2252 is rotatably disposed the apical lateral of the spring original part 2251, to support It states push type broach sheet devices 222 and the push type broach sheet devices 222 is allowed to horizontally slip in a lateral direction.

First pushing broach 2221 and second pushing broach 2222 of the push type broach sheet devices 222 are respectively provided at least One graver mounting groove 2223, wherein the graver mounting groove 2223 adapts to the graver 30.Preferably, the engraving Knife mounting groove 2223 is respectively formed first pushing broach 2221 and second pushing broach in the push type broach sheet devices 222 2222 two insides.It is noted that the graver mounting groove 2223 is an inclined tipper in the vertical direction, Inclined angle adapts to the inclination angle of the graver 30, in order to install the graver 30 in the graver mounting groove In 2223.

It is noted that the engraving cutter head mounting assembly 22, which can lead to, is electrically coupled to the power supply adapting device 10, Specifically, the fixed tool apron 221 of the engraving cutter head mounting assembly 22 is electrically connected to the power supply adapting device 10.Phase Ying Di, the described first fixed tool apron 2211 and described second of the fixed tool apron 221 of the engraving cutter head mounting assembly 22 Fixed tool apron 2212 can be led to an electrode for being electrically coupled to the power supply adapting device 10 respectively.The fixed tool apron 221 The described first fixed tool apron 2211 and the second fixed tool apron 2212 between be separated from each other, when 30 quilt of graver It is mounted on the engraving cutter head mounting assembly 22, it is described first solid to be electrically connected to the fixed tool apron 221 for the graver 30 Stationary knife seat 2211 and the second fixed tool apron 2212 make the power supply adapting device 10 and the fixed tool apron 22 and described Graver 30 forms an electrical circuit.

In order to avoid the engraving cutter head mounting assembly 22 during the work time heat transmission to the hand-held part shell 21 Inside, and influence of the electric current to the switch block 23 is prevented, the engraving cutter head mounting assembly 22 further includes a barriers 226, wherein the fixed tool apron 221 that the barriers 226 are arranged on the engraving cutter head mounting assembly 22 is opened with described It closes between component 232.Preferably, the barriers 226 are made by the material of a good insulation preformance, so as to the barriers 226 prevent switch block 23 described in the current direction carved in cutter head mounting assembly 22.On the other hand, the barriers 226 can also obstruct the heat that the engraving cutter head mounting assembly 22 and the graver 30 generate during the work time, In order to avoid due to the heated the phenomenon that melting of hand-held part described caused by working long hours shell 21, and for can be more preferable The protection switch block 23.

As shown in figure 4, wherein the switch block 23 be used to control the engraving cutter head mounting assembly 22 and described remove The energization and disconnection of device of air 24, and a display signal is given in the state of energization working as the switch block 23.Wherein institute Stating switch block 23 includes a switch driving sliding blade apparatus 231 and a microswitch 232, wherein the switch drives slide plate Device 231 be used to connect the engraving cutter head mounting assembly 22 and the switch block 23, so that the engraving cutter head is pacified Arrangement 22 and the switch block 23 form integral structure.On the other hand, switch driving sliding blade apparatus 231 also by with In the on-off of the control microswitch 231, and then the engraving owner is controlled by the microswitch 232 The energization and disconnection of machine 20.

In detail, switch driving sliding blade apparatus 231 includes slide plate 2311 and once slide plate 2312 on one, wherein institute It states slide plate 2311 and the lower slide plate 2312 is slidably disposed on together.In other words, the switch driving slide plate dress Setting between the 231 upper slide plate 2311 and the lower slide plate 2312 can opposite sliding and displacement in the longitudinal direction.Institute State switch driving sliding blade apparatus 231 the lower slide plate 2312 be used to be permanently connected the fixed tool apron device 221 and branch The fixed tool apron device 221 is supportted, and works as work of the fixed tool apron device 221 by a pressure or motive force backward Under, the fixation base structure 221 be connected to it is described switch driving sliding blade apparatus 231 the lower slide plate 2312 move backward or Person's sliding.

Correspondingly, the lower slide plate 2312 of the switch driving sliding blade apparatus 231 includes a fixing seat mounting portion 23121 And a slide plate interconnecting piece 23122, wherein the fixing seat mounting portion 23121 from 23122 one of slide plate interconnecting piece to Shangdi extends forwardly with, and an acclivitous supporting structure is formed, so as to the fixed tool apron device that is permanently connected 221.It is noted that the lower slide plate 2312 of the switch driving sliding blade apparatus 231 has an inclined angle obliquely Degree, the engraving machine host 20 is pushed forward convenient for operator during use.

The upper slide plate 2311 of the switch driving sliding blade apparatus 231 is slidably disposed on the lower slide plate 2312 Upper end.Correspondingly, the switch driving sliding blade apparatus 231 further comprises two slide plate positioning devices 2313, wherein the cunning The upper slide plate 2311 and the lower slide plate for clamping the switch driving sliding blade apparatus 231 is set in piece positioning device 2313 2312, so that the upper slide plate 2311 and the lower slide plate 2312 fit together.Correspondingly, the switch drives sliding blade apparatus The 231 upper slide plate 2311 and the lower slide plate 2312 are respectively provided with fixed corresponding to two of the slide plate positioning device 2313 Position through-hole.It is noted that the rear alignment of the positioning through hole of the front end of the lower slide plate 2312 and the upper slide plate 2311 Through-hole is the hole of a strip, and the slide plate positioning device 2313 is allowed to move in the positioning through hole of the strip.Due to The upper slide plate 2311 of the switch driving sliding blade apparatus 231 and the front and back end of the lower slide plate are respectively provided with a strip Positioning through hole, so after the slide plate positioning device 2313 is by the upper slide plate and the lower slide plate clamping, the upper slide plate 2311 and the lower slide plate 2312 cannot move and rotate in the up-down direction, but opposite position can occur in the horizontal direction The movement set.Preferably, the slide plate positioning device 2313 is a removably screw,

It is noted that the upper slide plate 2311 of the switch driving sliding blade apparatus 231 is fixedly disposed institute The inner wall of hand-held part shell 21 is stated, so that the switching device 23 is by the stable appearance that the hand-held part shell 21 is arranged in It receives in space.In other words, the switching device 23 drives upper 2311 quilt of slide plate of sliding blade apparatus 231 by the switch It is fixedly provided in the inner wall of the hand-held part shell 21, the lower slide plate 2312 can be in water relative to the upper slide plate 2311 Square sliding opposite upwards.So when the fixed tool apron device 221 to the engraving cutter head mounting assembly 22 apply one to When rear motive force, the lower slide plate for the switch driving sliding blade apparatus 231 that the fixed tool apron device 221 connects 2312 just move backward under the action of the motive force.

The switch driving sliding blade apparatus 231 further comprises a resetting apparatus 2314, wherein the resetting apparatus 2314 The connection slide plate positioning device 2313 is set, so that when relative to the upper slide plate 2311 phase occurs for the lower slide plate 2312 To position it is mobile when, the resetting apparatus 2314 drives the lower slide plate 2312 to reset.Preferably, the resetting apparatus 2314 be a spring arrangement, wherein the resetting apparatus 2314 is in tensional state in normal state, that is to say, that described multiple Position device 2314 is stretched always, when the movement of relative position occurs relative to the upper slide plate 2311 for the lower slide plate 2314 When, the resetting apparatus 2314 pulls the slide plate positioning device 2313 that the lower slide plate 2312 is connected, so that described Lower slide plate resets.

As fig. 5 a and fig. 5b, when the lower slide plate 2312 of the switch driving sliding blade apparatus 231 is relative to described Upper slide plate 2311 occur relative position it is mobile when, that is to say, that the lower slide plate 2312 moves backward, described at this time to open The lower slide plate 2312 for closing driving sliding blade apparatus 231 triggers the microswitch 232 of the switching device 23 simultaneously It is at opening state.

Correspondingly, the microswitch 232 is arranged on the rear side of the switch driving sliding blade apparatus 231.It is preferred that Ground, the microswitch 232 are arranged on extending back for the upper slide plate 2311 of the switch driving sliding blade apparatus 231 Support arm.The microswitch 232 includes a microswitch trigger device 2321, wherein the microswitch trigger device 2321 position corresponds to the lower slide plate 2312 of the switch driving sliding blade apparatus 231.In other words, when the switch drives The lower slide plate 2312 of dynamic sliding blade apparatus 231 relative to the upper slide plate 2311 occur relative position it is mobile when, That is the lower slide plate 2312 moves backward, the end of the lower slide plate 2312 described at this time touches and the fine motion is pushed to open backward The microswitch trigger device 2321 for closing device 232, the microswitch is connected.Correspondingly, when the resetting apparatus After 2314 reset the lower slide plate 2312, the downslide piece comes back to original position, the end of the lower slide plate 2312 It is detached from the microswitch trigger device 2321 of the microswitch 232, the microswitch 232 is at this time Off-state.

The microswitch 232 is electrically connected to the power supply adapting device 10, and controls the power supply adapting device 10 power to the engraving machine host 20.When the microswitch 232 is in the conductive state, that is, the fine motion is opened When the microswitch trigger device 2321 of pass device 232 is pushed, the microswitch 232 controls the electricity Source adaptive device 10 is powered to the engraving machine host 20.On the contrary, when the microswitch 232 is in an off state When, that is, the reset of the microswitch trigger device 2321 of the microswitch 232, the microswitch The 232 control power supply adapting devices 10 stop powering to the engraving machine host 20, and the engraving machine host 20 is in power-off State.

It is noted that the state switching of conducting and the disconnection of the switch block 23 of the engraving machine host 20 is Sliding blade apparatus 231 is driven to act on what the microswitch 232 was realized by the switch of the switch block 23.It changes Sentence talks about the process of the state switching of the conducting of the switch block 23 and the disconnection of the engraving machine host 20, is opened by described Close what the relativeness variation on driving sliding blade apparatus 231 and 232 position of microswitch was realized, and in opposite position During setting relationship change, the switch block 23 is not in electrical contact directly, is made so as to avoid being in electrical contact due to contact At electric spark, fever phenomenon, and then the service life of the engraving machine host 20 is effectively promoted, while also using It is more safe and reliable in the process.On the other hand, the switch block 23 of the engraving machine host 20 is opened by the fine motion It closes the microswitch trigger device 2321 of device 232 to realize, due to the fine motion of the microswitch 232 Switch trigger gear 2321 is longer in the stroke being triggered, so the serious forgiveness with higher of the microswitch 232, more It is easy triggering energized state.

As shown in figure 4, the first preferred embodiment according to the present invention, wherein the degasification of the engraving machine host 20 fills 24 inside for being arranged on the hand-held part shell 21 are set, the depassing unit 24 is configured for removing or disperse described Due to adding thermogenetic pernicious gas and smog in the engraving machine course of work.In the preferred embodiment, the depassing unit 24 For a blowning installation, that is to say, that the depassing unit 24 is blown outward from the inside of the hand-held part shell 21, by the carving The pernicious gas and smog generated in the quarter machine course of work dispels outward, in case these pernicious gases and smog influence operator Sight, while also avoiding operator from sucking these pernicious gases and smog, and then protect the health of operator.

In detail, the depassing unit 24 of the engraving machine host 20 is fixedly disposed the hand-held part shell 21 inside, it is preferable that the depassing unit 24 is arranged on the switch driving sliding blade apparatus 231 of the switch block 23 The upper slide plate 2311.Correspondingly, the upper slide plate of the switch driving sliding blade apparatus 231 of the switch block 23 2311 include a depassing unit mounting portion 23113, wherein side of the depassing unit mounting portion 23113 by the upper slide plate 2311 While being laterally extended, it be used to support the depassing unit 24, so that the depassing unit 24 keeps the position of a stable equilibrium It sets.The depassing unit 24, which can lead to, is electrically coupled to the power supply adapting device 10, and the function in the power supply adapting device 10 It can the lower air blowing outward of effect.It is noted that the conducting of the depassing unit 24 and off-state are also by the switching group The microswitch 232 of part 23 is realized.In other words, when the microswitch of the switch block 23 232 it is in the conductive state when, the depassing unit 24 is simultaneously turned on the engraving cutter head mounting assembly 22, it is secondary institute described in remove Device of air 24 and the graver 30 are in the conductive state simultaneously.Correspondingly, when the microswitch of the switch block 23 When device 232 is in an off state, the depassing unit 24 is also simultaneously switched off with the engraving cutter head mounting assembly 22.

The depassing unit 24 includes a depression generator 241 and a gas exhausting device 242, wherein the negative pressure is sent out Generating apparatus 241 makes the inside of the depassing unit 24 generate negative pressure, and the gas inside the depassing unit 24 is then passed through institute It states gas exhausting device 242 and is discharged outside to environment.In other words, the depression generator 241 of the depassing unit 24 After gas in accommodation space inside the hand-held part shell 21 is drawn, then via the gas exhausting device 242 discharge To external environment.

The depassing unit 24 has an air exit 243 and a gas access 244, wherein the air exit 241 The wind exhausting outlet 216 of the hand-held part shell 21 corresponding to the engraving machine host 20, that is to say, that the degasification dress It sets the gas that 241 are discharged and gas is blowed to by external environment by the wind exhausting outlet 216.Preferably, the depassing unit 24 The gas access 244 be arranged on the lower end of the depassing unit 24, so that the gas in external environment is from the switch Component opening 215 enters inside the hand-held part shell 21, is then sucked into the degasification via the gas access 244 The inside of device 24 is discharged to external environment under the action of the gas exhausting device of the depassing unit 247.

Preferably, side of the gas direction that the depassing unit 24 is blown out substantially with the engraving cutter head mounting assembly 22 To consistent, so that toxic gas and smog that the graver 30 generates timely are dispersed in use.More preferably Ground, the depassing unit 24 are a turbofan, that is to say, that the rotation of turbofan forms air-flow and passes through the hand-held part shell The wind exhausting outlet 216 of body 21, and then the engraving cutter head mounting assembly 22 of the engraving machine host 20 is generated outside Gas dispels.

As shown in figure 4, wherein the engraving machine host 20 further comprises a working condition suggestion device 25, wherein described Working condition suggestion device 25 be used to show whether presently described engraving machine host 20 is in running order.Due to the engraving The graver mounting assembly 22 that the switch block 23 of machine host 20 is connected could be by institute in the case where being pressed The microswitch 232 for stating switch block 23 is connected, but operator is difficult described in judgement during pressing Whether the microswitch 232 of switch block 23 is switched on.Therefore, the tooling condition prompting device 25 is configured to use In the working condition for prompting presently described engraving machine host 20.Preferably, the working condition suggestion device 25 is that a signal refers to Show lamp, when the engraving machine host 20 is in running order, that is, the switch block 23 of the engraving machine host 20 The microswitch 232 when being switched on, the signal lamp of the working condition suggestion device 25 is bright, to prompt to operate It is in the conductive state that personnel carve machine host 20 at this time.The working condition suggestion device 25, which can lead to, is electrically coupled to the switch The microswitch 232 and the power supply adapting device 10 of component 23, when the fine motion of the switch block 23 When switching device 232 is in the conductive state, the working condition suggestion device 25 is made in the function of the power supply adapting device 10 It is bright with lower display lamp.When the microswitch 232 of the switch block 23 is in an off state, the working condition The operating circuit of suggestion device 25 is prevented from electric current inflow, and the lamp of the working condition suggestion device 25 at this time does not work.

It is noted that in normal operation, the graver mounting assembly 22 of the engraving machine host 20, The conducting of the depassing unit 24 and the working condition suggestion device 25 and disconnecting all determines by the switch block 23, That is the graver mounting assembly 22 of the engraving machine host 20, the depassing unit 24 and the working condition are mentioned Showing device 25 is in the conductive state simultaneously in normal operation, is also all in an off state simultaneously upon opening.Preferably, The working condition suggestion device 25 is arranged on the hand-held part shell 21 of the engraving machine host 20.Those skilled in the art Member is it is envisioned that the working condition suggestion device 25 is also possible to a sound prompt device, that is to say, that opens when described It is in the conductive state to close component 23, in working condition, the working condition suggestion device 25 issues the engraving machine host 20 Voice prompt, to prompt the working condition of engraving machine host 20 at this time described in operator.

As shown in fig. 6, the first preferred embodiment according to the present invention, wherein the engraving machine provides different shape and type Graver 30.Preferably, the graver is in U-shape, and the graver 30 includes that a graver bottom 31 and two gravers connect Arm 32 is connect, wherein the graver linking arm 32 is integrated by the graver bottom 31 outwards inclination extension upward Structure.The graver of the tilt angle of the graver linking arm 32 of the graver 30 and the engraving machine host 20 The tilt angle of the graver mounting groove 2223 of the push type broach sheet devices 222 of head mounting assembly 22 is adapted, with toilet Stating graver 30 can be detachably mounted in the graver mounting groove 2223.

It is noted that according to different service conditions, operator be can choose using different type and size Graver 30.Correspondingly, according to the first preferred embodiment of the invention, wherein the graver bottom 31 of the graver 30 It can be circular arc type and be also possible to parallel linear type, and the graver bottom 31 of the graver 30 of different length Length it is also not identical.It will be appreciated by persons skilled in the art that for different type and the different size of graver 30 are suitable for carving the decorative pattern or pattern of different size and precision.

It is noted that the graver 30 is made by the biggish material of resistance, to work as the engraving When knife 30 can be mounted on the engraving machine host 20 with being powered, in the state of energization, the graver 30 can produce ratio Biggish heat carries out thermal cutting to product to be processed using the heat that the graver 30 generates.

Referring to shown in Fig. 7 of attached drawing of the present invention, another deformation according to the engraving machine of the first preferred embodiment of the invention is real It applies mode to be set forth in following description, the basic structure substantially phase with engraving machine described in the first preferred embodiment Together, different places is the engraving machine host 20A of the engraving machine.In detail, the engraving machine host 20A includes on the other hand Hold portion shell 21A, engraving a cutter head mounting assembly 22A, switch block 23A, a depassing unit 24A, wherein the engraving machine The hand-held part shell 21A of host 20A, it is described engraving the cutter head mounting assembly 22A and switch block 23A structure with Structure described in first preferred embodiment is identical, and difference is the depassing unit 24A of the engraving machine host 20A. In the variant embodiment of this preferred embodiment, the depassing unit 24A is a negative pressure air-suction device, that is to say, that described Depassing unit 24A is during normal work by the front end the engraving cutter head mounting assembly 22A of the engraving machine host 20A The pernicious gas and fume absorbent of generation, are then then exhausted to external environment.

The depassing unit 24A includes depression generator 241A, a gas exhausting device 242A, wherein the negative pressure Generating device 241A can conductively be connected to the gas exhausting device 242A, so that the depression generator 241A is absorbed Gas be discharged to external environment via the gas exhausting device 242A.

The depression generator 241A has an a gas access 2411A and gas vent 2412A, wherein the gas The entrance 2411A and gas vent 2412A is respectively set at the front and rear sides of the depression generator 241A.Extraneous ring Gas in border is sucked into the depression generator from the gas access 2411A of the depression generator 241A Then 241A is discharged to the gas exhausting device 242A via the gas vent 2412A.The depression generator The position of the gas vent 2412A of 241A corresponds to the air exit 216A of the hand-held part shell 21A.It is preferred that Ground, the gas exhausting device 242A is a hollow tubular structure, wherein one end of the gas exhausting device 242A is set Set the gas vent 2412A for being connected to the depression generator 241A, the other end of the gas exhausting device 242A External environment is set to guiding by the hand-held part shell 21A, to be absorbed into from the engraving cutter head mounting assembly 22A Pernicious gas and smog etc. be discharged to the position far from operator, to avoid the nocuousness generated in process Gas and smog etc. block the sight of operator, also protect the health of operator.

Preferably, the depassing unit 24A is arranged in the accommodation space of the hand-held part shell 21A.Specifically For, the switch that the depression generator 241A of the depassing unit 24A is fixed on the switch block 23A drives The upper slide plate 2311A of dynamic sliding blade apparatus 231A, so that the depassing unit 24A is fixedly provided in the hand-held part shell Inside body 21A.

It is noted that the depassing unit 24A, which can lead to, is electrically coupled to the power supply adapting device 10, and described The conducting of depassing unit 24A is determined with disconnection by the switch block 23A of the engraving machine host 20A.

Referring to shown in Fig. 8 of attached drawing of the present invention, another deformation according to the engraving machine of the first preferred embodiment of the invention is real It applies mode to be set forth in following description, the basic structure substantially phase with engraving machine described in the first preferred embodiment Together, different places is the engraving machine host 20B of the engraving machine.In detail, the engraving machine host 20B includes on the other hand Hold portion shell 21B, engraving a cutter head mounting assembly 22B, switch block 23B, a depassing unit 24B, wherein the engraving machine The hand-held part shell 21B of host 20B, it is described engraving the cutter head mounting assembly 22B and switch block 23B structure with Structure described in first preferred embodiment is identical, and difference is the depassing unit 24B of the engraving machine host 20B.

In this variant embodiment, the depassing unit 24B is a negative pressure air-suction device, that is to say, that the degasification Device 24B generates the engraving cutter head front end mounting assembly 22B of the engraving machine host 20B during normal work Pernicious gas and fume absorbent, be then then exhausted to external environment.The depassing unit 24B is arranged in the hand-held part shell Outside body 21B, it is preferable that the depassing unit 24B is removable installed in the upper end of the hand-held part shell 21B.

The depassing unit 24B includes depression generator 241B, a gas exhausting device 242B, wherein the negative pressure Generating device 241B can conductively be connected to the gas exhausting device 242B, so that the depression generator 241B is absorbed Gas be discharged to external environment via the gas exhausting device 242B.

The depression generator 241B has an a gas access 2411B and gas vent 2412B, wherein the gas The entrance 2411B and gas vent 2412B is respectively set at the front and rear sides of the depression generator 241B.The carving The gas that the icking tool head front end mounting assembly 22B generates is inhaled from the gas access 2411B of the depression generator 241B Enter to the depression generator 241B, is then discharged to the gas exhausting device via the gas vent 2412B 242B.Correspondingly, one end of the gas exhausting device 242B of the depassing unit 24B is removably coupled to described negative The gas vent 2412B of pressure generating apparatus 241B, the other end of the gas exhausting device 242B are set to being guided External environment, by negative pressure absorbing to pernicious gas, smog etc. be discharged to external environment.

It is noted that the depassing unit 24B, which can lead to, is electrically coupled to the power supply adapting device 10, and described The conducting of depassing unit 24B is determined with disconnection by the switch block 23B of the engraving machine host 20B.Correspondingly, described to remove The bottom end of device of air 24B includes two energization upper contact 243B, wherein the apical position of the hand-held part shell 21B is arranged in correspondence with There are two energization lower contact 244B, wherein the energization lower contact 244B, which can be led to, is electrically coupled to the power supply adapting device 10. When the depassing unit 24B is installed in the corresponding position of the hand-held part shell 21B, the energization upper contact 243B and institute It states energization lower contact 244B to be electrically connected, so that the depassing unit 24B, which can be led to, is electrically coupled to the power adaptation Device 10.

Other side under this invention, the present invention further provides the methods that one carves on a product, wherein described Engraving process includes the following steps:

(a) graver 30 with the product into contact is heated；With

(b) gas that the graver 30 is generated when carving the product is removed.

It is noted that the product can be but not limited to plastic products or rubber product.

Preferably, in the step (b), institute is removed in such a way that the region in the neighbouring graver 30 generates air-flow State the gas that graver 30 is generated when carving the product.For example, can be filled by the degasification in the step (b) It sets 24 and generates air-flow in the region of the graver 30, to remove the gas that the graver 30 is generated when carving the product Body.

Referring to shown in Fig. 9 to Figure 14 of invention attached drawing, has according to the one of the second preferred embodiment of the invention and remove airway dysfunction Engraving machine be set forth in following description, wherein the engraving machine is used for the table in the plastics either products such as rubber Face carries out carving specific decorative pattern, symbol, text etc., it is preferable that the engraving machine is used for automobile or the wheel of other vehicles The engraving on tire surface.

According to shown in Fig. 9, the engraving machine includes a power supply adapting device 40, and one carves machine host 50, and can be split It is set to an at least graver 60 for the engraving machine host with unloading, is electrically coupled to wherein the power supply adapting device 40 can lead to The engraving machine host 50 and a power supply.The engraving machine host 50 will be by under the power supply function of the power supply adapting device 40 The graver 60 for being mounted on the engraving machine host 50 heats, and then pushes the engraving by the engraving machine host 50 Knife 60 processes the surface of machined object in the form of hot cutting.

Specifically, the power supply adapting device 40, which is arranged to the engraving machine host 50, provides suitable electric energy, The graver 60 is heated under the control action of the engraving machine host 50.The power supply adapting device 10 can be conditioned Ground is that the engraving machine host 50 provides low pressure, the lasting electric energy of high current, so as to by the engraving machine host 50 by the carving Icking tool 60 is heated to the condition of high temperature, when the graver 60 is in is convenient for that machined object is cut or carved under the condition of high temperature Carve operation.Therefore, the power supply adapting device 10 is set controllably to the engraving machine host 50 and the graver 60 provide variable supply voltage, or provide variable electric current.Preferably, the power supply adapting device 40 is transformer dress It sets, wherein the power supply adapting device 40 is electrically connected to a power supply, such as domestic power supply in the operating condition, the power supply is suitable A low-voltage electric energy adjustably is provided to the engraving machine host 50 with device 40.

According to shown in Figure 10, wherein the engraving machine host 50 includes a shell 51, a cutter head mounting assembly 52 is set to One switch block 53 of the shell 51, wherein the cutter head mounting assembly 52, which can be led to, is electrically coupled to the switch block 53, and the power supply adapting device 40 is controlled from the switch block 53 and provides electric energy to the cutter head mounting assembly 52.It is described Graver 60 is detachably mounted on the cutter head mounting assembly 52 of the engraving machine host 50, and He Ketong is electrically coupled to The cutter head mounting assembly 52 provides electric energy from the cutter head mounting assembly 52 to the graver 60, in the form of electrically heated The graver 60 is heated.The engraving machine is the processing material to be cut in the form of hot cutting, during the work time, the carving The graver 60 of machine worked inevitably generate toxic smog or gas at high operating temperatures quarter.Correspondingly, institute Stating engraving machine host 50 further comprises a depassing unit 54, wherein the depassing unit 54 is arranged for away the engraving Perhaps smog avoids these toxic gases or smog from having an impact operator to the gas that machine generates during the work time, On the other hand, but also the visual field of operator is more clear, consequently facilitating operation.The depassing unit 54 is arranged at described The shell 51 for carving machine host 50, by blow or air-breathing in the form of the gas that the graver 60 generates is dispersed or It absorbs.

The outside for being wrapped in the switch block 53 is set in the shell 51 of the engraving machine host 50, and is institute It states engraving machine 50 and an operation handgrip part is provided, convenient for the gripping and operation of operator.The shell 51 includes a main part 511 and from the hand-held part 512 that the main part 511 extends downwardly, wherein the main part 511 is arranged for installing and solid The fixed switch block 53 and the depassing unit 54.The hand-held part 512 is arranged to the operating handle of the engraving machine, Convenient for operator's gripping.Preferably, the L-shaped handgun shape of the shell 51 holds convenient for operator and outwards pushes away The engraving machine is moved to cut machined object.

The shell 51 further comprises a first shell 513 and a second shell 514, wherein the first shell 513 It is detachably coupled with the second shell 514, the first shell 513 and the second shell 514 are described Main part 511 forms a hosting space to hold the switch block 53.Preferably, the first shell 513 and described Two shells 514 are symmetrically set together, and the switch block 53 is arranged on the inner wall of the first shell 513.

The front end of the main part 511 of the shell 51 has a ventilation window 5111 and a switching channels 5112, Described in ventilation window 5111 hosting space and the external world for being connected to the shell 51 are set with the switching channels 5112 Environment allows the hosting space of external environment and the shell 51 to carry out gas exchanges, and allows the engraving machine host 50 switch block 53 stretches back and forth in the front-rear direction of the switching channels 5112.Preferably, the ventilation window 5111 and the switching channels 5112 be adjacently formed in the front end of the main part 511, and the ventilation window 5111 It is interconnected up and down with the switching channels 5112.It is highly preferred that the ventilation window 5111 is formed on the switch The upper end position in channel 5112, the smog toxic gas for generating the upper end of the engraving machine by the depassing unit 54 are timely It removes on ground.

As shown in Figure 9 and Figure 10, the cutter head mounting assembly 52 of the engraving machine is arranged at the switch block 53 Front end, and protrude from the main part 511 of the shell 51 forward.The cutter head mounting assembly 52 is set removable It can lead to unloading and be electrically coupled to the graver 60, and an energization is formed by the cutter head mounting assembly 52 and the graver 60 Circuit, and then graver 60 described in electric heating.

The cutter head mounting assembly 52 includes a tool apron 521 and the press cutter device that 521 front end of tool apron is arranged in 522, wherein before the tool apron 521 can be slidingly arranged in the press cutter device 522, to adapt to install different wide cuts Graver 60.The graver 60 is removable installed between the tool apron 521 and the press cutter device 522, and by institute The tool apron 521 and the graver 60 for stating cutter head mounting assembly 52 form an electrical circuit.The tool apron 521 includes one first Tool apron 5211 and spaced one second tool apron 5212, wherein between first tool apron 5211 and second tool apron 5212 Electrical isolation, and first tool apron 5211 and second tool apron 5212 can lead to the energization for being electrically coupled to a circuit respectively Conducting wire.First tool apron 5211 and second tool apron 5212 can also be led to respectively is electrically coupled to the two of the graver 60 End, so that the circuit of an energization is made of with first tool apron 5211 and second tool apron 5212 graver 60, into And in the energized state by 60 electric heating of graver.Preferably, first tool apron 5211 of the tool apron 521 and described Second tool apron 5212 is symmetrically disposed on the front end of the switch block 53.

It is noted that the tool apron 521 of the cutter head mounting assembly 52 is by the preferable material system of electric conductivity It forms, and the resistance of the tool apron 521 is small compared to the resistance of the graver 60, so that the engraving machine is in work shape Under state, high temperature is generated by the graver 60.

Correspondingly, the press cutter device 522 further comprises one first pushing broach 5221 and one second pushing broach 5222, Described in the first pushing broach 5221 be movably disposed in the tool apron 521 first tool apron 5211 front end, it is described Second pushing broach 5222 is movably disposed in the front end of second tool apron 5212 of the tool apron 521.The push type broach dress First pushing broach 5221 and second pushing broach 5222 for setting 522 by mutually insulated are spaced setting.The graver 60 one end, which can be powered, ground and to be removably attached between first pushing broach 5221 and first tool apron 5211, institute It states the other end of graver 60 and can be powered and ground and be removably attached to second pushing broach 5222 and second tool apron Between 5212.

The cutter head mounting assembly 52 further comprises two limited bolts 523, wherein the limited bolt 523 be arranged at it is described Tool apron 51 and the press cutter device 52 prevent institute the press cutter device 522 to be limited to the front position of the tool apron 51 It states press cutter device 52 to be detached from from the front end of the tool apron 51, the loosening due to the press cutter device 52 can be effectively prevented in this way Caused by the press cutter device 52 loss.The limited bolt 523 is set respectively limits the described of the press cutter device 522 First pushing broach 5221 in first tool apron 5211, and limit second pushing broach 5222 of shrink press cutter device 522 in Second tool apron 5212.The cutter head mounting assembly 52 further comprises two fasteners 524, wherein 524 quilt of the fastener Adjustably the graver 60 is fixed between the press cutter device 52 and the tool apron 51 in a manner of aid.It is described tight Firmware 524 is adjustably set to first pushing broach 5221 and first tool apron 5211 respectively, and is adjustably set It is placed in second pushing broach 5222 and second tool apron 5212.Correspondingly in order to suitable for the engraving for installing different wide cuts Knife 60 is in the cutter head mounting assembly 52, first pushing broach 5221 and second pushing broach of the press cutter device 522 5222 are respectively equipped with a mobile chute 5223, wherein the limited bolt 523 and the fastener 524 pass through the mobile chute 5223 and be connected to the tool apron 521, and the press cutter device 522 is limited to 521 He of tool apron by the limited bolt 523 By the fastener 524 by operationally by the graver 60 be fixed on the tool apron 521 and the press cutter device 521 it Between.

Preferably, the mobile chute 5223 is a long stripes through hole, and the mobile chute 5223 allows the push type broach to fill First pushing broach 5221 and second pushing broach 5222 for setting 522 exist around the limited bolt and the fastener 524 The left and right directions of the front end of the tool apron 521 slides, to adapt to the graver 60 of different wide cuts.It is understood that working as When needing to install the lesser graver 60 of wide cut size, by 5221 He of the first pushing broach of the press cutter device 521 Second pushing broach, 5222 slid inward, on the contrary, when needing to install the larger-size graver 60 of wide cut, by institute First pushing broach 5221 and second pushing broach 5222 for stating press cutter device 521 slide in and out.

From the above mentioned, the graver 60 is that the cutter head mounting assembly 52 is arranged by way of aid is fixed described Between press cutter device 522 and the tool apron 521.Correspondingly, the press cutter device 522 of the cutter head mounting assembly 52 is further With at least two cutter grooves 5224 for installing the graver 60, at least two cutter grooves 5224 are formed on the press cutter device 522 first pushing broach 5221 and the side towards the tool apron 521 of second pushing broach 5222.It is understood that It is that at least two cutter grooves 5224 are the through-hole through about 522 press cutter device, and the cutter groove 5224 is in direction The side of the tool apron 521 is additionally provided with cutter groove opening.The length of the notch of the cutter groove 5224 is equal to or is slightly less than described The width of the tool arm of graver 60, so that the graver 60 is clamped and consolidated by the press cutter device 522 and the tool apron 521 It is fixed.Preferably, in order to be adapted to the graver 60 of different in width, the press cutter device 522 is equipped with two different notch length The cutter groove 5224.It is noted that in the engraving machine of the invention, for the ease of installing the graver 60, and Prevent the graver 60 from slipping from the cutter groove 5224 of the press cutter device 522, the engraving tool arm be arranged to It is upper inclined.Therefore, the cutter groove 5224 of the press cutter device 522, which is also set to, from bottom angled extends upward through in institute State press cutter device 522.

As shown in Figure 11 to Figure 12 B, the cutter head mounting assembly 52 further comprises a push type broach support device 525, wherein The push type broach support device 525 is arranged on the tool apron 521, outwards to support the press cutter device 522.The institute on It states, wherein the length of the notch of the cutter groove 5224 is equal to or the width of the tool arm of the slightly less than described graver 60, and Aid effect by the press cutter device 522 and the tool apron 521 is fixed by the graver 60, and is electrically connected to the tool apron 521 first tool apron 5211 and second tool apron 5212.The push type broach support device 525 is arranged on the tool apron 521, and there is a support force to outer support to the press cutter device 522.Particularly, when the press cutter device 522 is in pine When relaxation state, the press cutter device 522 under the outwards supporting role of the push type broach support device 525 with the tool apron 521 A spaced slot is formed, so that the installation control of the graver 60 increases, consequently facilitating the graver 60 is installed into institute It states in cutter groove 5224.On the other hand, for the graver 60 during being disassembled, the press cutter device 522 is in the push type broach Under the supporting role of support device 525, a spaced slot is formed with the tool apron 521 outward, it can be easily from the cutter groove It is removed in 5224.

Preferably, the push type broach support device 525 is a resilient supporting unit, passes through the push type broach during installation The push type broach support device 525 is expressed in the tool apron 521 by the squeezing action of device 522.Correspondingly, the tool apron 521 Equipped with the push type broach support slot 5213 for installing the push type broach support device 525, wherein the push type broach support slot 5213 is arranged on court To the side of the press cutter device 522.The push type broach support device 525 includes an elastic supporting member for supporting optical member 5251 and is arranged at described The ball 5252 of 5251 upper end of elastic supporting member for supporting optical member, wherein the ball 5252 rollably supports the press cutter device 522 upwards. It is noted that when shrink press cutter device 522 slides on the tool apron 521, the push type broach support device 525 it is described Ball 5252 supports the press cutter device 522 upwards, and with the sliding of the press cutter device 522, the ball is described The upper end of elastic supporting member for supporting optical member 5251 is rolled without movement.It is to be appreciated that the push type broach support device 525 is arranged on the pressure Confined state, 5252 quilt of the ball of the push type broach support device 525 are between knife system 522 and the tool apron 521 Telescopically move in the push type broach support slot 5213.

As shown in Figure 10 to Figure 12 B, wherein the cutter head mounting assembly 52 is arranged at the front end of the switch block 53, And the cutter head mounting assembly 52 is protruded outward in the shell 51.In order to avoid the knife of the cutter head mounting assembly 52 Short circuit between first tool apron 5211 and second tool apron 5212 of seat 521, and prevent the cutter head mounting assembly 52 from existing Influence of the excessive heat to the switch block 53 is generated in the case of energization, the cutter head mounting assembly 52 further comprises one Gasket 526, wherein the gasket 526 is arranged between the tool apron 521 and the switch block 53.It is noted that The tool apron 521 of the cutter head mounting assembly 52 is periodically installed at the gasket 526, and the gasket 526 is by electricity Insulating materials is made.On the other hand, the gasket 526 also generates the tool apron 521 in energization additional Heat is obstructed, influence of the heat for preventing the tool apron 521 from generating to the switch block 53.

One end of the switch block 53, which can lead to, is electrically coupled to the cutter head mounting assembly 52, by the switch block 53 Operationally electric energy is provided to the cutter head mounting assembly 52.On the other hand, the cutter head mounting assembly 52 driveably connects It is connected to the switch block 53, the working condition of the switch block 53 is driven by the cutter head mounting assembly 52.Correspondingly, institute It states switch block 53 operationally to be switched between an on state and an off-state, when the switch block 53 is described The driving of cutter head mounting assembly 52 is used down in the conductive state, and the switch block 53 will be connected to the cutter head mounting assembly 53 The tool apron 521 first tool apron 5211 and second tool apron 5212 in the power supply adapting device 40, and then will The graver 60 that the tool apron 521 of the cutter head mounting assembly 52 is electrically connected connects in circuit pathways.

In detail, when the cutter head mounting assembly 52 is by an inward pressure, the cutter head mounting assembly 52 is driven The dynamic switch block 53 being attached thereto moves in the switching channels 5112 of the shell 51, and then opens described in switching Close the on state and off-state of component 53.The switch block 53 include a driving mechanism for switch 531 and with the switch The microswitch 532 that driving device 531 connects, wherein the driving mechanism for switch 531 consolidates the switch block 53 Surely it is mounted on the shell 51.One end of the driving mechanism for switch 531 is driveably connected to the cutter head installation group Part 52, and under the driving effect of the cutter head mounting assembly 52 driving mechanism for switch 531 in the switching channels It is moved in 5112, and then changes the working condition of the microswitch 532 of the switch block 53.The microswitch Device 532, which can be led to, is electrically coupled to the power supply adapting device 40 and the cutter head mounting assembly 52, and the fine motion is opened It closes device 532 and is adjustably controlled the power supply adapting device 40 to the cutter head mounting assembly 52 offer electric energy.It is described micro- Dynamic switching device 532 is driven change working condition by the driving mechanism for switch 531, and then changes the cutter head mounting assembly 52 conducting and off-state.

As shown in Figure 10 to Figure 12 B, wherein the driving mechanism for switch 531, which is set, is fixed on the described of the shell 51 The inner wall of first shell 513, the front end of the driving mechanism for switch 531 are connected to the gasket of the cutter head mounting assembly 52 526.The driving mechanism for switch 531 includes the fixed bracket 5311 of a switch and can slide relatively with the fixed bracket 5311 of the switch Dynamic driving slide plate 5312, wherein 5311 switch block 53 is arranged in described in the shell 51 between the fixation The cutter head mounting assembly 52 is connected to the switch block 53 by the inner wall of first shell 513, the driving slide plate 5312.Institute It states cutter head mounting assembly 52 and passes through the driving slide plate of the driving mechanism for switch 531 of the driving switch block 53 5312, and make the driving slide plate 5312 and the offset for switching fixed bracket 5311 and relative position occurring, and then by described Driving slide plate 5312 triggers the switch of the microswitch 532, to adjust the working condition of the switch block.

In detail, the driving slide plate 5312 of the driving mechanism for switch 531 is slidably disposed on described open Close the lower end position of fixed bracket 5311.The driving slide plate 5312 of the driving mechanism for switch 531 is installed in the cutter head Under the driving effect of component 52, it is fitted in the lower end for switching fixed bracket 5311 and moves backward.The driving mechanism for switch 531 further comprise a resetting apparatus 5313 and two pilot pins 5314 for connecting 5313 both ends of resetting apparatus, wherein described Pilot pin 5314 is arranged at the driving slide plate 5312 and the switch fixer 5311 of the driving mechanism for switch 531 Rear and front end, and the driving slide plate 5312 and the switch fixer 5311 are fixed together in the form of aid. The resetting apparatus 5313, which is set, is connected to the pilot pin 5314, when the driving of the driving mechanism for switch 531 is sliding Piece 5312 moves backward under the driving effect of the cutter head mounting assembly 52, and the resetting apparatus 5313 is in the pilot pin It is stretched under 5314 draw to both ends and is in tensional state, after the driving of the driving mechanism for switch 531, institute State the driving slide plate 5312 reset that resetting apparatus 5313 draws the driving mechanism for switch 531.

The microswitch 532 is used to control the power supply adapting device 40 to be supplied to the cutter head mounting assembly 52 Electricity.The microswitch 532 is arranged at the fixed bracket 5311 of the switch of the driving mechanism for switch 531, described Microswitch 532 includes that a switch main body 5321 and one protrude from the switch trigger 5322 of the switch main body 5321, Wherein the switch trigger 5322 can trigger the switch main body 5321 by driving, thus more by the switch main body 5321 Change the on state of the switch block 53.The switch main body 5321 of the microswitch 532 is exactly this field skill The switching device that art personnel are understood, the microswitch 532 are opened described in the switch main body 5321 by protruding from It closes trigger 5322 and triggers the microswitch 532, led so as to adjust the cutter head mounting assembly 52 of the engraving machine Logical state.

It is noted that the switch block 53 for carving machine host 50 described in the engraving machine of the invention will The connecting wire and the contact contact for being connected to the cutter head mounting assembly 52 are hidden by the microswitch 532 Hiding avoids the contact contact of conducting wire from being directly exposed to external bring dangerous.

According to described in Figure 10 to Figure 13 B, wherein the depassing unit 54 of the engraving machine host 50 is neighboringly arranged In the cutter head mounting assembly 52 of the engraving machine, it is arranged to remove that the engraving machine generates during engraving has Poisonous gas and smog.

According to the engraving machine of the second preferred embodiment of the invention, the depassing unit 54 is implemented as one and blows outward The cutter head installation group to the engraving machine is set in the turbofan device of gas, the depassing unit 54 in the operating condition The direction of part 52 is blown, so that the smog and gas that the graver 60 generates during hot cutting be dispersed outward.

In detail, the depassing unit 54 is arranged on the driving mechanism for switch 531 of the switch block 53 The fixed bracket 5311 of the switch, and the depassing unit 54 can be led to and be electrically coupled to the described micro- of the switch block 53 Dynamic switching device 532, the work shape of the depassing unit 54 is controlled by the microswitch 532 of the switch block 53 State.The depassing unit 54 includes a depression generator 541 and the gas exhausting device being connected to the negative pressure device 541 542, wherein the depression generator 541 generates negative pressure in the inside of the depassing unit 54, collect the institute of the engraving machine The gas inside shell 51 is stated, is then discharged outside to gas by the gas exhausting device 542 of the depassing unit 54 Environment.The depassing unit 54 has an air inlet window 543, and is formed in a gas outlet of the gas exhausting device 542 544, wherein the depression generator 541 collects the gas inside the engraving machine host 50 by the air inlet window 543. The gas of collection is discharged outside in environment by the gas exhausting device 542 by the gas outlet 544.It is worth mentioning Be, the gas outlet 544 of the depassing unit 54 towards the engraving machine host 50 the cutter head mounting assembly 52 side To so that the gas of collection is directly blowed to the position that the graver 60 heats by the depassing unit 54.It is understood that It is that the gas outlet 544 of the depassing unit 54 corresponds to the ventilation window 5111 of the shell 51, is removed so as to described The gas that device of air 54 is blown out directly blows to the cutter head mounting assembly 52 with being not blocked.It will be appreciated by those skilled in the art that , the ventilation window 5111 of the shell 51 be connected to the switching channels 5112 it is described engraving machine host the master Machine space and external environment, when the depassing unit 54 during the work time, gas in external environment passes through the vent window Mouth 5111 and the switching channels 5112 are inhaled the air in external environment by the negative pressure device 541 of the depassing unit 54 Enter into the hosting space, to form an air circulation.

It is understood that there is the depassing unit 54 of the engraving machine air blowing state that can be adjusted and one to break Open state.The air blowing state and the stationary state of the depassing unit 54 are by the switch block for carving machine host 50 53 controls and adjustment, the depassing unit 54, which can be led to, is electrically coupled to the switch block 53.Preferably, the depassing unit 54 air blowing state synchronized is in the on state of the cutter head mounting assembly 52 of the engraving machine host 50.In detail, institute The cutter head mounting assembly 52 of engraving machine host 50 is stated when driving the switch block 53, and being allowed in the conductive state, The switch block 53 allows the power supply adapting device 40 to be powered and control to the cutter head mounting assembly 52 with controlling simultaneously The depassing unit 54 is in air blowing state.In other words, when the graver 60 is installed in the cutter head mounting assembly 52 When, the electric heating state synchronized of the graver 60 in the air blowing state of the blowning installation 54, thus can in time by The toxic gas and smog removing that the graver 60 generates.It is understood that disconnecting shape when the switch block 53 is in When state, the switch block 53 controls the power supply adapting device 40 simultaneously to be stopped powering and controlling to the cutter head mounting assembly 52 The depassing unit 54 is made to be in an off state.Simply by the depassing unit 54 is synchronous with the cutter head mounting assembly 52 Ground switches on and off.

As shown in Fig. 9 to Figure 13 B, for the ease of observing the working condition of the engraving machine host 50, the engraving owner Machine 50 further comprises a work condition indicator 55, wherein the work condition indicator 55 is arranged in real time The working condition for prompting the engraving machine current.In the second preferred embodiment of the invention, the work of the engraving machine State indicating device 55 is implemented as an indicator light.Preferably, the work condition indicator 55 is a light emitting diode, Under on-state, 55 lamp of work condition indicator is bright, in order to prompt operator.Those skilled in the art can manage Solution, the work condition indicator 55 are arranged to the working condition for prompting the engraving machine current, the work shape State instruction device, which can also be implemented as a sound prompt device or other, has the suggestion device of instruction function.

The work condition indicator 55 is electrically coupled to the switch block of the engraving machine host 50 by that can lead to 53 microswitch 532 provides electric energy, and control from the switch block 53 to the work condition indicator 55 Make the on off operating mode of the work condition indicator 55.Preferably, the on off operating mode of the work condition indicator 55 is same It walks in the on off operating mode of the cutter head mounting assembly 52 and the depassing unit 54 of the engraving machine host 50.It is understood that Be, when it is described engraving machine host 50 connect the graver 60 in running order be heated, the depassing unit 54 It is also turned on and blows in air blowing state to the direction of the cutter head mounting assembly 52, and the working status indication at this time The lamp of device 55 is bright.

According to the second preferred embodiment of the invention, wherein the graver 60 of the engraving machine and first is preferably implemented The structure and function of graver 30 described in example is identical.

Referring to described in Figure 14 of invention attached drawing, according to the another kind of the engraving machine of the second preferred embodiment of the invention Embodiment is set forth in following description, wherein the power supply adapting device 40 and the engraving of the engraving machine Knife 60 is identical as in the second preferred embodiment, and difference is the engraving machine host 50A.

Specifically, the engraving machine host 50A includes a shell 51A, the cutter head installation of a connection graver 60 Component 52A is connected to the cutter head mounting assembly 52A, and the switch block 53A driven by the cutter head mounting assembly 52A, One depassing unit 54A and one is used to prompt the work condition indicator 55A of the engraving machine working condition.Of the invention The shell 51A of the engraving machine in variant embodiment in second preferred embodiment, the cutter head mounting assembly Engraving machine described in 52A, the switch block 53A and the work condition indicator 55A and the second preferred embodiment The structure and function of host 50 is identical, and difference is the depassing unit 54A.The depassing unit 54A is implemented as a tool There is the exhaust apparatus of air suction function, the depassing unit 54A is arranged on the driving mechanism for switch of the switch block 53A The fixed bracket 5311A of the switch of 531A, that is, be arranged on inside the shell 51A, it will by the depassing unit 54A The gas that generates at the cutter head mounting assembly 52A and fume absorbent and it is expelled to external environment.The depassing unit 54A is electrically connected It is connected to the power supply adapting device 40, provides electric energy from the power supply adapting device 40 to the depassing unit 54A.The degasification Device 54A is adjustably had a working condition and an off-state, when the depassing unit 54A is filled in the power adaptation It sets in running order under 40 power supply function, the gas generated at the cutter head mounting assembly 52A is then exhausted from absorbing Form removes.

It is noted that the working condition of the depassing unit 54A is synchronized with the conducting of the cutter head mounting assembly 52A State, that is to say, that when the switch block 53A control cutter head mounting assembly 52A is in the conductive state, the switch It is in running order that component 53A controls the depassing unit 54A simultaneously.

The depassing unit 54A includes an a depression generator 541A and gas exhausting device 542A, wherein described negative Pressure generating apparatus 541A is connected to the gas exhausting device 542A, by the depression generator 541A by the gas of absorption or Person's smog is transmitted to the gas exhausting device 542A, and then gas or smog are discharged by the gas exhausting device 542A Into external environment.The depression generator 541A can generate negative pressure under the power supply function of the power supply adapting device 40 The gas or smog in external environment are absorbed, the gas exhausting device 542A can be absorbed the depassing unit 54A Gas be discharged outside to environment.Correspondingly, the depression generator 541A of the depassing unit 54A is arranged close to The position of the cutter head mounting assembly 52A, convenient for absorbing the toxic gas and cigarette that the graver 60 generates during the work time Mist.There is the depassing unit 54A air inlet 543A, the air inlet 543A to be formed on the depression generator 541A Front end, by the ventilation window 5111A into the shell 51A.Preferably, the gas row of the depassing unit 54A Out device 542A be a hose, and the outlet of the gas exhausting device 542A towards it is described engraving machine host 50A tail end, So that the gas that the exhaust apparatus 54A is discharged disperses, the sight of operator is not influenced.

Referring to described in Figure 15 and Figure 16 of invention attached drawing, according to the engraving machine of the second preferred embodiment of the invention Another embodiment is set forth in following description, wherein the power supply adapting device 40 of the engraving machine and institute It is identical as in the second preferred embodiment to state graver 60, difference is the engraving machine host 50B.

Specifically, the engraving machine host 50B includes a shell 51B, the cutter head installation of a connection graver 60 Component 52B is connected to the cutter head mounting assembly 52B, and the switch block 53B driven by the cutter head mounting assembly 52B, One depassing unit 54B and one is used to prompt the work condition indicator 55B of the engraving machine working condition.Of the invention The shell 51B of the engraving machine in variant embodiment in second preferred embodiment, the cutter head mounting assembly Engraving machine described in 52B, the switch block 53B and the work condition indicator 55B and the second preferred embodiment The structure and function of host 50 is identical, and difference is the depassing unit 54B.

In this variant embodiment, the depassing unit 54B is implemented as an exhaust apparatus with air suction function, Described in depassing unit 54B be arranged on it is described engraving machine host 50B the shell 51B upper end, the depassing unit 54B From the top of the engraving machine host 50B from the top air-breathing of the cutter head mounting assembly 52B, the graver 60 is being worked The gas generated in the process is discharged in the form of air-breathing by the depassing unit 54A.

It is described with the first variant embodiment of the second preferred embodiment the difference lies in that in this variant embodiment Depassing unit 54B is removably disposed in the upper end of the shell 51B of the engraving machine host 50B, and the engraving machine exists It, will when needing to remove gas or smog that the graver 60 generates in the course of work using the depassing unit 54B The depassing unit 54B is mounted on the shell 51B of the engraving machine host 50B；It, can be with when not needing degasification The depassing unit 54B is gone down, to avoid the visual field of the depassing unit 54B obstruction operator.The depassing unit 54B is electrically connected to the power supply adapting device 40, provides electric energy from the power supply adapting device 40 to the depassing unit 54B. The depassing unit 54B is adjustably had a working condition and an off-state, when the depassing unit 54B is in the electricity It is in running order under the power supply function of source adaptive device 40, by the gas generated at the cutter head mounting assembly 52B to absorb The form being then exhausted from removes.

The depassing unit 54B includes an a depression generator 541B and gas exhausting device 542B, wherein described negative Pressure generating apparatus 541B is connected to the gas exhausting device 542B, by the depression generator 541B by the gas of absorption or Person's smog is transmitted to the gas exhausting device 542B, and then gas or smog are discharged by the gas exhausting device 542B Into external environment.The depression generator 541B can generate negative pressure under the power supply function of the power supply adapting device 40 The gas or smog in external environment are absorbed, the gas exhausting device 542B can be absorbed the depassing unit 54B Gas be discharged outside to environment.Correspondingly, the depression generator 541B of the depassing unit 54B is arranged close to The position of the cutter head mounting assembly 52B, convenient for absorbing the toxic gas and cigarette that the graver 60 generates during the work time Mist.There is the depassing unit 54B air inlet 543B, the air inlet 543B to be formed on the depression generator 541B Front end, by the ventilation window 5111B into the shell 51B.Preferably, the gas row of the depassing unit 54B Out device 542B be a hose, and the outlet of the gas exhausting device 542B towards it is described engraving machine host 50B tail end, So that the gas that the exhaust apparatus 54B is discharged disperses, the sight of operator is not influenced.

From the above mentioned, wherein the depassing unit 54B, which can be led to, is electrically coupled to the power supply adapting device 40, by described Power supply adapting device 40 supplies electric energy to the depassing unit 54B under the control action of the switch block 53B, to control The working condition of the depassing unit 54B.The depassing unit 54B further comprises being electrically connected to the depression generator The depassing unit 54B is electrically connected to the electricity by the wiring connector 544B by the two wiring connector 544B of 541B Source adaptive device 40.Correspondingly, the main part 511B of the shell 51B of the engraving machine host 50B, which has, corresponds to The connection adaptation groove 5113B of the wiring connector 544B.The exhaust apparatus 54B is coupled by the wiring connector 544B The power supply adapting device 40 is electrically connected in the connection adaptation groove 5113B, and by the connection adaptation groove 5113B.

Referring to Figure 17 A to Figure 19 of invention attached drawing, has according to the one of third preferred embodiment of the invention and remove airway dysfunction Engraving machine be set forth in following description.The engraving machine includes a power supply adapting device 40, an engraving machine host 50C, and an at least graver 60 for the engraving machine host can be set to being disassembled, wherein the power supply adapting device 40 It can lead to and be electrically coupled to the engraving machine host 50C and a power supply.The engraving machine host 50C is in the power supply adapting device 40 Power supply function under will be installed in it is described engraving machine host 50C the graver 60 heat, then pass through the engraving machine Host 50C pushes the graver 60 to process in the form of hot cutting to the surface of machined object.

It is noted that in the third preferred embodiment of invention, the power supply adapting device 40 of the engraving machine Essentially identical with the graver 60 and the structure and function of above-mentioned preferred embodiment, difference is the engraving machine host 50C。

As shown in Figure 17 A to Figure 18, the engraving machine host 50C includes shell 51C, a cutter head mounting assembly 52C, if It is placed in a switch block 53C of the shell 51C, wherein the cutter head mounting assembly 52C, which can be led to, is electrically coupled to described open Component 53C is closed, and the power supply adapting device 40 is controlled from the switch block 53C and is provided to the cutter head mounting assembly 52C Electric energy.The graver 60 is detachably mounted on the cutter head mounting assembly 52C of the engraving machine host 50C, and can It is logical to be electrically coupled to the cutter head mounting assembly 52C, electric energy is provided from the cutter head mounting assembly 52C to the graver 60, The graver 60 is heated in the form of electrically heated.The engraving machine is the processing material to be cut in the form of hot cutting, in work During work, the graver 60 of the engraving machine work at high operating temperatures inevitably generate toxic smog or Gas.Correspondingly, the engraving machine host 50 further comprises a depassing unit 54C, wherein the depassing unit 54C is set For removing the gas that the engraving machine generates during the work time, perhaps smog avoids these toxic gases or smog to behaviour It is had an impact as personnel, on the other hand, but also the visual field of operator is more clear, consequently facilitating operation.The degasification dress The shell 51C that 54C is arranged at the engraving machine host 50C is set, by the graver in the form of air blowing or air-breathing 60 gases generated are dispersed or are absorbed.

Preferably, in third preferred embodiment of the invention, the depassing unit 54C is implemented as a blowning installation, by The depassing unit 54C generates an air-flow blown outward inside the shell 51C.

It is noted that in third preferred embodiment of the invention, the shell of the engraving machine host 50C 51C is similar to the structure of the shell 51 of above-mentioned preferred embodiment.The shell 51C is including a main part 511C and described in The hand-held part 512C that main part 511C is extended downwardly, wherein the main part 511C is arranged for opening described in installation and fixation Close the component 53C and depassing unit 54C.The hand-held part 512C is arranged to the operating handle of the engraving machine, is convenient for Operator holds.Preferably, the L-shaped handgun shape of shell 51C holds convenient for operator and outwards pushes institute Engraving machine is stated to cut machined object.

The shell 51C further comprises a first shell 513C and a second shell 514C, wherein the first shell 513C and the second shell 514C are detachably coupled.The shell 51C further has more an increase space 515C, wherein the plenum space 515C be used to store the gas that the depassing unit 54C is collected into, and in the pressurizing air Between the air pressure for being higher than external environment is formed in 515C.When the air pressure of the plenum space 515C is higher than the air pressure of external environment, The gas of the plenum space 515C is discharged outside to environment an opening in the form of air-flow.Preferably, the pressurization Space 515C is formed by the first shell 513C and the second shell 514C common definition of the shell 51C.This field Technical staff is it is understood that the plenum space 515C of the shell 51C can also be by being arranged in the shell 51C The pipeline in portion is formed, it is not limited here.

The front end of the main part 511C of the shell 51C has a ventilation window 5111C and a switching channels 5112C, wherein the host for being connected to the shell 51C is set with the switching channels 5112C by the ventilation window 5111C Space and external environment allow the hosting space of external environment and the shell 51C to carry out gas exchanges, and described in permission Front-rear direction of the switch block 53C of machine host 50C in the switching channels 5112C is carved to stretch back and forth.

Correspondingly, the main part 511C of the shell 51C is further provided with an at least afflux portion 5114C, wherein institute Afflux portion 5114C is stated to be formed on close to the position of the cutter head mounting assembly 52C, wherein the height in the plenum space 515C Body of calming the anger forms an outside air-flow at the afflux portion 5114C.The plenum space 515C is at the afflux portion 5114C The air-flow formed leads to the cutter head mounting assembly 52C, and the cutter head peace is outwards dispelled from the afflux portion 5114C Smog, the ashes generated at arrangement 52C.Preferably, the afflux portion 5114C of the shell 51C is an air channel, wherein The opening direction of the air channel is directed toward the cutter head mounting assembly 52C, the air gas formed in order to the afflux portion 5114C Stream blows to the cutter head mounting assembly 52C.

The shell 51C is further provided with an at least suction hole 516C, wherein the suction hole 516C allows external environment Gas enter the plenum space 515C of the shell 51C.Preferably, the suction hole 516C is formed on the shell The rear end of the main part 511C of body 51C, wherein the air gas of external environment is passed by the suction hole 516C In the plenum space 515C of the shell 51C, and gas boosting is formed in the plenum space.It is highly preferred that described Suction hole 516C is the aperture for being formed on the shell 51C, and the substances such as biggish particle, such as stone is avoided to pass through the suction Stomata 516C is entered in the plenum space 515C.

As shown in Figure 17 A to Figure 18, the cutter head mounting assembly 52C of the engraving machine is arranged at the switch block 53C, wherein the switch block 53C supports the cutter head mounting assembly 52C.It is noted that the cutter head mounting assembly 52C is also movably disposed in the switch block 53C, drives the switch block 53C by the cutter head mounting assembly 52C Movement, and then switch the on state of the switch block 53C.It is noted that preferably implementing in third of the invention In example, the knife of the structure of the cutter head mounting assembly 52C and the switch block 53C, function and above-mentioned preferred embodiment Head mounting assembly 52C is similar with the switch block 53C structure and function.

Correspondingly, the cutter head mounting assembly 52C includes a tool apron 521C and is arranged in the one of the front end the tool apron 521C Press cutter device 522C.The cutter head mounting assembly 52C further comprises two limited bolt 523C and two fastener 524C, wherein The limited bolt 523C and the fastener 524C are arranged at the tool apron 51C and the press cutter device 52C.The switching group Part 53C includes a driving mechanism for switch 531C and the microswitch 532C that connect with the driving mechanism for switch 531C, Wherein the driving mechanism for switch 531C is arranged on the shell 51C.

As shown in Figure 18 and Figure 19, the depassing unit 54C of the engraving machine host 50C is arranged on the shell 51C wherein the depassing unit 54C absorbs the gas of external environment, and increases the plenum space 515C of the shell 51C Gas pressure intensity.According to third preferred embodiment of the invention, blow outward wherein the depassing unit 54C is implemented as one Device.

Correspondingly, the depassing unit 54C is adjacently provided at beside the suction hole 516C of the shell 51C, The gas of external environment is absorbed by the suction hole 516C, and by the gas collection of external environment in the depassing unit 54C The plenum space 515C in.The depassing unit 54C further comprises a negative pressure air-suction device 541C and an exhaust apparatus 542C.The negative pressure air-suction device 541C is used to negative pressure, absorbs the gas of external environment, wherein the negative inspiratory pressure fills 541C is set by the gas transport being absorbed into the exhaust apparatus 542C, by the exhaust apparatus 542C by the negative inspiratory pressure The gas that device 541C is collected into is stored in the plenum space 515C, to increase the gas pressure of the plenum space 515C By force.

As shown in figure 19, the negative pressure air-suction device 541C of the depassing unit 54C generates negative pressure, passes through the air-breathing Hole 516C absorbs the gas of external environment, and the gas being collected into is discharged to the shell 51C by the exhaust apparatus 542C The plenum space 515C, increase the gas pressure intensity of the plenum space 515C.The plenum space of the shell 51C Air pressure in 515C is greater than the air pressure pressure of external environment, and the gas in the plenum space 515C is in the afflux portion 5114C Place forms outside air-flow, wherein the direction of the air-flow is towards the position of the cutter head mounting assembly 52C.

It should be understood by those skilled in the art that foregoing description and the embodiment of the present invention shown in the drawings are only used as illustrating And it is not intended to limit the present invention.The purpose of the present invention has been fully and effectively achieved.Function and structural principle of the invention exists It shows and illustrates in embodiment, under without departing from the principle, embodiments of the present invention can have any deformation or modification.

Claims (23)

1. an engraving machine host characterized by comprising

One shell；

One cutter head mounting assembly, wherein the cutter head mounting assembly is arranged at the shell；And

One depassing unit, wherein the depassing unit is arranged at the shell, wherein the depassing unit is close to the knife Air-flow is formed at the position of head mounting assembly.

2. engraving machine host according to claim 1, wherein the shell has a ventilation window, the ventilation window is adjacent The nearly cutter head mounting assembly, wherein the depassing unit is arranged at the inside of the shell, and the depassing unit produces Raw air-flow can flow through the ventilation window.

3. engraving machine host according to claim 2, wherein the depassing unit includes a depression generator, it is described negative Pressure generating apparatus is arranged at the inside of the shell, and the gas that the depression generator is formed in a manner of generating negative pressure Stream can flow through the ventilation window.

4. engraving machine host according to claim 3, wherein the depassing unit further comprises a gas exhausting device, The gas exhausting device is connected to the depression generator.

5. engraving machine host according to claim 1 wherein the shell has an afflux portion, and is further provided at least One plenum space, wherein the afflux portion is formed in the shell close to the position of the cutter head mounting assembly, wherein described remove Device of air increases the gas atmosphere of the plenum space, and air-flow is formed at the afflux portion by the plenum space.

6. engraving machine host according to claim 5, wherein the shell is further provided with an at least suction hole, wherein institute It states suction hole and is connected to external environment, wherein the gas of external environment is absorbed into institute by the suction hole by the depassing unit Plenum space is stated, to increase the gas pressure intensity of the plenum space.

7. one has the engraving machine except airway dysfunction characterized by comprising

An at least graver；With

One engraving machine host, wherein the engraving machine main body further comprises a shell, a cutter head mounting assembly and a degasification Device, wherein the cutter head mounting assembly is arranged at the shell, the depassing unit is arranged at the shell, wherein institute It states depassing unit and forms air-flow at the position close to the cutter head mounting assembly, wherein the graver is arranged at the knife Head mounting assembly.

8. engraving machine according to claim 7, wherein the shell has a ventilation window, the ventilation window is adjacent to institute Cutter head mounting assembly is stated, wherein the depassing unit is arranged at the inside of the shell, and the depassing unit generates Air-flow can flow through the ventilation window.

9. engraving machine according to claim 8, wherein the depassing unit includes a depression generator, the negative pressure hair Generating apparatus is arranged at the inside of the shell, and the air-flow energy that the depression generator is formed in a manner of generating negative pressure Enough flow through the ventilation window.

10. engraving machine according to claim 9, wherein the depassing unit further comprises a gas exhausting device, institute It states gas exhausting device and is connected to the depression generator.

11. engraving machine according to claim 7 wherein the shell has an afflux portion, and is further provided at least one Plenum space, wherein the afflux portion is formed in the shell close to the position of the cutter head mounting assembly, wherein the degasification Device increases the gas atmosphere of the plenum space, and air-flow is formed at the afflux portion by the plenum space.

12. engraving machine according to claim 11, wherein the shell is further provided with an at least suction hole, wherein described Suction hole is connected to external environment, wherein the depassing unit gas of external environment is absorbed by the suction hole it is described Plenum space, to increase the gas pressure intensity of the plenum space.

13. according to the engraving machine any in claim 7 to 12, wherein the cutter head mounting assembly includes a tool apron and one Press cutter device, wherein the tool apron is arranged at the shell, the press cutter device is arranged at the tool apron, the graver It is detachably mounted between the press cutter device and the tool apron.

14. engraving machine according to claim 13, wherein the cutter head mounting assembly further comprises two limited bolts, wherein The limited bolt is arranged on the tool apron and the press cutter device.

15. engraving machine according to claim 14, wherein the cutter head mounting assembly further comprises two push type broach support dress It sets, the push type broach support device is arranged at the tool apron, and outwards supports the press cutter device.

16. further comprising a power supply adapting device according to the engraving machine any in claim 5 to 14, wherein described Depassing unit is connected to the power supply adapting device.

17. the method carved on a product, which is characterized in that the engraving process includes the following steps:

(a) graver with the product into contact is heated；With

(b) gas that the graver is generated when carving the product is removed.

18. engraving process according to claim 17, wherein in the step (b), near the graver The mode for generating air-flow removes the gas that the graver is generated when carving the product.

19. engraving process according to claim 18, wherein in the above-mentioned methods, in the graver in a manner of air blowing Near generate air-flow, to remove the gas that the graver is generated when carving the product.

20. engraving process according to claim 18, wherein in the above-mentioned methods, in the graver in a manner of air-breathing Near generate air-flow, to remove the gas that the graver is generated when carving the product.

21. the manufacturing method of an engraving machine host, which is characterized in that the manufacturing method includes the following steps:

(A) one cutter head mounting assembly of installation is in a shell；With

(B) depassing unit is neighboringly set in the cutter head mounting assembly, the engraving machine host is made.

22. manufacturing method according to claim 21, wherein in the step (B), with the depassing unit with it is described The adjacent mode of cutter head mounting assembly installs the depassing unit in the shell.

23. manufacturing method according to claim 22, wherein in the above-mentioned methods, installing the depassing unit in the shell The inside of body, and the air-flow for allowing the depassing unit to be formed flows through the one of the neighbouring cutter head mounting assembly of the shell Ventilation window.