CN113290392A - Automatic forehead thermometer accessory processing machine - Google Patents

Abstract

An automatic processing machine for a forehead temperature gun accessory comprises a main shaft assembly, a clamp assembly, a feeding assembly, a discharging assembly, a milling groove assembly, a centering assembly, a drilling assembly and a tapping assembly, wherein the clamp assembly is connected with the main shaft assembly and drives the clamp assembly to do linear reciprocating motion through the main shaft assembly, the feeding assembly, the discharging assembly, the milling groove assembly, the centering assembly, the drilling assembly and the tapping assembly are respectively arranged on the side face of the main shaft assembly and respectively correspond to one processing station, the clamp assembly can sequentially move to each processing station through the linear reciprocating motion, the feeding assembly feeds a workpiece to be processed onto the clamp assembly, and the milling groove assembly, the centering assembly, the drilling assembly and the tapping assembly are respectively used for milling grooves, centering, drilling and tapping processing of the workpiece on the clamp assembly. The invention can complete the processing of a plurality of procedures by clamping once, reduce the processing time of products and improve the production efficiency, and the equipment can replace part of processing centers and numerical control machines.

Description

Automatic forehead thermometer accessory processing machine

Technical Field

The invention relates to the field of mechanical processing equipment design, in particular to an automatic processing machine for forehead temperature gun accessories.

Background

At present, forehead temperature rifle accessory does not have special processing equipment, and when it involves a plurality of manufacturing procedure such as milling flutes, centering, drilling, tapping, each process need separately adopt different machining equipment to process, so not only lead to the cost of labor and the processing cost to increase, and production efficiency is low moreover.

Disclosure of Invention

Based on the technical scheme, the invention provides an automatic processing machine for forehead temperature gun accessories, and aims to solve the technical problems that labor cost and processing cost are increased and production efficiency is low due to the fact that forehead temperature gun accessories in the prior art are processed by different devices.

In order to achieve the purpose, the invention provides an automatic processing machine for a forehead temperature gun accessory, which comprises a main shaft assembly, a clamp assembly, a feeding assembly, a discharging assembly, a slot milling assembly, a centering assembly, a drilling assembly and a tapping assembly, wherein the clamp assembly is connected with the main shaft assembly and is driven by the main shaft assembly to do linear reciprocating motion, the feeding assembly, the discharging assembly, the slot milling assembly, the centering assembly, the drilling assembly and the tapping assembly are respectively arranged on the side surface of the main shaft assembly and respectively correspond to one processing station, the clamp assembly can sequentially move to each processing station through linear reciprocating motion, the feeding assembly is used for feeding a workpiece to be processed onto the clamp assembly, and the slot milling assembly, the centering assembly, the drilling assembly and the tapping assembly are respectively used for milling slots and milling slots of the workpiece on the clamp assembly, The fixture assembly comprises a fixture assembly, a discharge assembly and a centering assembly, wherein the fixture assembly is used for machining a workpiece, and the discharge assembly is used for discharging the machined workpiece on the fixture assembly.

As a further preferable technical solution of the present invention, the spindle assembly includes a spindle slide rail, a spindle slider, and a spindle servo motor, the spindle slider is disposed on the spindle slide rail in a sliding fit, the spindle servo motor drives the spindle slider to slide along the spindle slide rail through lead screw transmission and the spindle slider, and the spindle slider is used for mounting the clamp assembly.

As a further preferable technical solution of the present invention, the clamp assembly includes a clamp support seat, a clamp cylinder, a fixed clamp seat and a movable clamp seat, the fixed clamp seat is disposed opposite to the movable clamp seat, the fixed clamp seat is fixedly disposed on the clamp support seat, the movable clamp seat is slidably disposed on the clamp support seat, the clamp cylinder is fixedly disposed on the clamp support seat, a piston rod of the clamp cylinder is connected to the movable clamp seat to drive the movable clamp seat to move, so that the movable clamp seat and the fixed clamp seat are matched to clamp or release during movement, the fixed clamp seat and the movable clamp seat are respectively and fixedly provided with a clamping jaw, and the fixed clamp seat and the movable clamp seat clamp a workpiece through the clamping jaw when clamping.

As a further preferable technical scheme of the invention, the feeding assembly comprises a feeding support seat, a feeding oil cylinder, a feeding groove plate and four corner strips, wherein a sliding groove is formed in the feeding groove plate along the length direction of the feeding groove plate, the feeding oil cylinder is fixedly connected with the feeding support seat at one end of the sliding groove, the four corner strips are embedded in the sliding groove at one side far away from the feeding oil cylinder, a piston rod of the feeding oil cylinder is connected with a feeding push rod positioned in the sliding groove, and the feeding oil cylinder drives the feeding push rod to perform telescopic motion in the sliding groove along the sliding groove direction through the piston rod; the four-corner strip is provided with a feeding through hole and a feeding hole, the feeding through hole penetrates through the four-corner strip along the axial direction of the feeding push rod, and the feeding hole extends downwards from the top surface of the four-corner strip to the feeding through hole; the feeding push rod in telescopic motion is inserted into the feeding through hole, so that the workpiece placed into the feeding through hole through the feeding hole is extruded by the feeding push rod and is fed onto the clamp assembly.

As a further preferable technical scheme of the present invention, the milling groove assembly includes a milling groove pad, a milling groove support, a milling groove front and rear fine adjustment sliding table, a milling groove upper and lower fine adjustment sliding table, and a milling cutter holder, the milling groove support is mounted on the top surface of the milling groove pad through the milling groove front and rear fine adjustment sliding table, the milling cutter holder is mounted on the side surface of the milling groove support through the milling groove upper and lower fine adjustment sliding table, and a cutter shaft on the milling cutter holder is used for connecting a milling cutter, wherein an adjustment direction of the milling groove front and rear fine adjustment sliding table is perpendicular to an adjustment direction of the milling groove upper and lower fine adjustment sliding table, and the milling groove front and rear fine adjustment sliding table is matched with the milling groove upper and lower fine adjustment sliding table to adjust a processing position of the milling cutter.

As a further preferable technical scheme of the present invention, the centering assembly includes a centering pad, a centering oil cylinder, a centering upper and lower fine adjustment sliding table, and a centering main shaft, the centering upper and lower fine adjustment sliding table is slidably disposed on the centering pad in a front-rear direction, the centering oil cylinder is fixed on the centering pad and is connected to the centering upper and lower fine adjustment sliding table through a piston rod of the centering oil cylinder, the centering main shaft is mounted on the centering upper and lower fine adjustment sliding table, a telescopic direction of the centering oil cylinder is perpendicular to an adjustment direction of the centering upper and lower fine adjustment sliding table, and the centering oil cylinder is matched with the centering upper and lower fine adjustment sliding table to adjust a machining position of the centering main shaft.

As a further preferable technical scheme of the present invention, the drilling assembly includes a drilling pad, a drilling vertical fine adjustment sliding table, a drilling oil cylinder and a drilling electric spindle, the drilling vertical fine adjustment sliding table is fixed on the drilling pad, the drilling electric spindle is slidably disposed on a side surface of the drilling vertical fine adjustment sliding table through a drilling sliding plate, the drilling oil cylinder is fixed on the drilling vertical fine adjustment sliding table and is connected with the drilling electric spindle through a piston rod of the drilling oil cylinder, and the drilling oil cylinder is matched with the drilling vertical fine adjustment sliding table to adjust a processing position of the drilling electric spindle.

As a further preferable technical scheme of the present invention, the tapping assembly includes a tapping pad, a tapping upper and lower fine adjustment sliding table, a tapping oil cylinder and a tapping electric spindle, the tapping upper and lower fine adjustment sliding table is fixed on the tapping pad, the tapping electric spindle is slidably disposed on a side surface of the tapping upper and lower fine adjustment sliding table through a tapping slide plate, the tapping oil cylinder is fixed on the tapping upper and lower fine adjustment sliding table and is connected with the tapping electric spindle through a piston rod thereof, and the tapping oil cylinder is matched with the tapping upper and lower fine adjustment sliding table to adjust a processing position of the tapping electric spindle.

As a further preferable technical scheme of the invention, the unloading assembly comprises an unloading supporting seat and an unloading oil cylinder, the unloading oil cylinder is fixed on the unloading supporting seat, the front end of a piston rod of the unloading oil cylinder is connected with a material returning push rod, and the unloading oil cylinder drives the material returning push rod to move in a telescopic manner through the piston rod of the unloading oil cylinder so as to unload the processed workpiece on the clamp assembly.

As a further preferable technical scheme of the present invention, the automatic processing machine further includes a workbench and a material receiving assembly, the spindle assembly, the clamp assembly, the material loading assembly, the material unloading assembly, the milling groove assembly, the centering assembly, the drilling assembly and the tapping assembly are respectively mounted on the workbench, the material unloading assembly is disposed on a side surface of the workbench, and the workbench is further provided with a slide rail connected between the material unloading assembly and the material receiving assembly so as to slide a workpiece unloaded by the material unloading assembly into a hopper of the material receiving assembly through the slide rail.

According to the automatic forehead thermometer accessory processing machine, the clamp assembly is driven by the main shaft assembly to move to do linear reciprocating motion, so that the clamp assembly reciprocates at each station and reciprocates once, all processing and loading and unloading operations of a product can be completed, and therefore processing of multiple procedures can be completed by one-time clamping, namely the product processing time is reduced, the production efficiency is improved, and extra loss caused by multiple times of product clamping is reduced.

Drawings

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

FIG. 1 is a schematic view showing the structure of an embodiment of an automatic processing machine for forehead temperature gun accessories according to the present invention;

FIG. 2 is an exploded view showing an example of the automatic processing machine for forehead temperature gun accessories according to the present invention;

FIG. 3 is a schematic diagram of an example of a clamp assembly;

FIG. 4 is a schematic structural view of an example provided by the loading assembly;

FIG. 5 is a schematic structural view of an example provided by the milling assembly;

FIG. 6 is a schematic diagram of an example of a centering assembly;

FIG. 7 is a schematic diagram of an example of a drilling assembly;

FIG. 8 is a schematic structural view of an example provided for a tapping assembly;

fig. 9 is a schematic structural view of an example provided by the discharging assembly.

In the figure: 100. a spindle assembly, 200, a clamp assembly, 201, a clamp oil cylinder, 202, a clamp supporting seat, 203, a movable clamp seat, 204, a fixed clamp seat, 205, a clamping jaw, 300, a feeding assembly, 301, a feeding supporting seat, 302, a feeding oil cylinder, 303, a feeding trough plate, 304, a feeding push rod, 305, a four-corner strip, 400, a milling trough assembly, 401, a milling trough pad seat, 402, a milling trough upper and lower fine tuning sliding table, 403, a milling trough supporting seat, 404, a milling trough front and rear fine tuning sliding table, 405, a milling cutter seat, 500, a centering assembly, 501, a centering pad seat, 502, a centering oil cylinder, 503, a centering upper and lower fine tuning sliding table, a centering electro-spindle, 600, a drilling assembly, 601, a drilling pad seat, 602, a drilling upper and lower fine tuning sliding table, 603, a drilling oil cylinder, 604, a drilling electro-spindle, 700, a tapping assembly, 701, a tapping pad seat, 702, tapping upper and lower fine tuning sliding tables, 703 and tapping oil cylinders, 704. the tapping electric spindle comprises 800 parts of a tapping electric spindle body, 900 parts of a discharging assembly and a receiving assembly.

The objects, features and advantages of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments. In the preferred embodiments, the terms "upper", "lower", "left", "right", "middle" and "a" are used for clarity of description only, and are not used to limit the scope of the invention, and the relative relationship between the terms and the terms is not changed or modified substantially without changing the technical content of the invention.

As shown in fig. 1 to 9, the present invention provides an automatic processing machine for a forehead temperature gun accessory, comprising a spindle assembly 100, a clamp assembly 200, a feeding assembly 300, a discharging assembly 800, a slot milling assembly 400, a centering assembly 500, a drilling assembly 600 and a tapping assembly 700, wherein the clamp assembly 200 is connected to the spindle assembly 100 and is driven by the spindle assembly 100 to perform a linear reciprocating motion, the feeding assembly 300, the discharging assembly 800, the slot milling assembly 400, the centering assembly 500, the drilling assembly 600 and the tapping assembly 700 are respectively arranged at a side surface of the spindle assembly 100 and respectively correspond to one processing station, the clamp assembly 200 can sequentially move to each processing station through the linear reciprocating motion, wherein the feeding assembly 300 is used for feeding a workpiece to be processed onto the clamp assembly 200, the slot milling assembly 400, the centering assembly 500, and the tapping assembly 700 are sequentially moved to each processing station through the linear reciprocating motion, wherein the feeding assembly 300 is used for feeding the workpiece to be processed onto the clamp assembly 200, and the slot milling assembly 400, the centering assembly 500, The drilling assembly 600 and the tapping assembly 700 are respectively used for milling grooves, centering, drilling and tapping a workpiece on the clamp assembly 200, and the discharging assembly 800 is used for discharging the machined workpiece on the clamp assembly 200.

The main shaft assembly 100 comprises a main shaft sliding rail, a main shaft sliding block and a main shaft servo motor, the main shaft sliding block is arranged on the main shaft sliding rail in a sliding fit mode, the main shaft servo motor drives the main shaft sliding block to slide along the main shaft sliding rail through lead screw transmission, the main shaft sliding block is used for mounting the clamp assembly 200, servo control is adopted, the movement precision is high, a workpiece can accurately move to each station along with the clamp assembly 200, and therefore the machining precision is improved.

Referring to fig. 3, the clamp assembly 200 includes a clamp support base 202, a clamp cylinder 201, a fixed clamp base 204 and a movable clamp base 203, the fixed clamp base 204 is disposed opposite to the movable clamp base 203, the fixed clamp base 204 is fixedly disposed on the clamp support base 202, the movable clamp base 203 is slidably disposed on the clamp support base 202, the clamp cylinder 201 is fixedly disposed on the clamp support base 202, a piston rod of the clamp cylinder 201 is connected to the movable clamp base 203 to drive the movable clamp base 203 to move, so that the movable clamp base 203 and the fixed clamp base 204 are matched to clamp or release during movement, each of the fixed clamp base 204 and the movable clamp base 203 is fixedly mounted with a clamping jaw 205, and when the fixed clamp base 204 and the movable clamp base 203 clamp, a workpiece is clamped by the clamping jaw 205.

Referring to fig. 4, the feeding assembly 300 includes a feeding support seat 301, a feeding cylinder 302, a feeding chute plate 303 and a four-corner strip 305, wherein a chute is formed in the feeding chute plate 303 along the length direction of the feeding chute plate, the feeding cylinder 302 is fixedly connected to the feeding support seat 301 at one end of the chute, the four-corner strip 305 is embedded in the chute at the side far away from the feeding cylinder 302, a piston rod of the feeding cylinder 302 is connected to a feeding push rod 304 located in the chute, and the feeding cylinder 302 drives the feeding push rod 304 to perform telescopic motion in the chute along the chute direction through the piston rod; the rectangular bar 305 has a feed through hole penetrating through the rectangular bar 305 in the axial direction of the feed ram 304, and a feed hole extending downward from the top surface of the rectangular bar 305 to the feed through hole; the feeding push rod 304 in the telescopic motion is inserted into the feeding through hole, so that the workpiece put into the feeding through hole through the feeding hole is extruded by the feeding push rod 304 and fed onto the jig assembly 200.

Referring to fig. 5, the milling flutes subassembly 400 includes milling flutes backing block 401, milling flutes supporting seat 403, finely tunes slip table 404 around the milling flutes, finely tunes slip table 402 and milling flutes 405 from top to bottom, milling flutes supporting seat 403 passes through finely tune slip table 404 around the milling flutes is installed milling flutes backing block 401's top surface, milling flutes 405 passes through finely tune slip table 402 from top to bottom the milling flutes is installed the side of milling flutes supporting seat 403, arbor on milling flutes 405 is used for connecting milling cutter, wherein, finely tunes the regulation direction of slip table 404 around the milling flutes with finely tunes the regulation direction of slip table 402 from top to bottom about the milling flutes is perpendicular, finely tune slip table 404 around the milling flutes with finely tune slip table 402 cooperation from top to bottom in order to adjust the processing position of milling cutter.

Referring to fig. 6, the centering assembly 500 includes a centering pedestal 501, a centering cylinder 502, a centering upper and lower fine adjustment sliding table 503 and a centering spindle 504, the centering upper and lower fine adjustment sliding table 503 is slidably disposed on the centering pedestal 501, the centering cylinder 502 is fixed on the centering pedestal 501 and is connected to the centering upper and lower fine adjustment sliding table 503 through a piston rod thereof, the centering spindle 504 is mounted on the centering upper and lower fine adjustment sliding table 503, a telescopic direction of the centering cylinder 502 is perpendicular to an adjustment direction of the centering upper and lower fine adjustment sliding table 503, and the centering cylinder 502 is matched with the centering upper and lower fine adjustment sliding table 503 to adjust a processing position of the centering spindle 504.

Referring to fig. 7, the drilling assembly 600 includes a drilling pad 601, a drilling fine adjustment sliding table 602, a drilling oil cylinder 603 and a drilling electric spindle 604, the drilling fine adjustment sliding table 602 is fixed on the drilling pad 601, the drilling electric spindle 604 is slidably disposed through the drilling sliding plate, the drilling fine adjustment sliding table 602 is fixed on the drilling side, the drilling oil cylinder 603 is fixed on the drilling fine adjustment sliding table 602 and is connected with the drilling electric spindle 604 through a piston rod thereof, the drilling oil cylinder 603 is matched with the drilling fine adjustment sliding table 602 to adjust the machining position of the drilling electric spindle 604.

Referring to fig. 8, the tapping assembly 700 includes a tapping pad seat 701, a tapping upper and lower fine adjustment sliding table 702, a tapping cylinder 703 and a tapping electric spindle 704, the tapping upper and lower fine adjustment sliding table 702 is fixed on the tapping pad seat 701, the tapping electric spindle 704 is slidably disposed on the side surface of the tapping upper and lower fine adjustment sliding table 702 through a tapping sliding plate, the tapping cylinder 703 is fixed on the tapping upper and lower fine adjustment sliding table 702 and is connected with the tapping electric spindle 704 through a piston rod thereof, and the tapping cylinder 703 is matched with the tapping upper and lower fine adjustment sliding table 702 to adjust the machining position of the tapping electric spindle 704.

Referring to fig. 9, the unloading assembly 800 includes an unloading support seat and an unloading cylinder, the unloading cylinder is fixed on the unloading support seat, the front end of the piston rod of the unloading cylinder is connected with a material returning push rod, and the unloading cylinder drives the material returning push rod to move in a telescopic manner through the piston rod of the unloading cylinder so as to unload the processed workpiece on the clamp assembly 200.

In a preferred embodiment, the automatic processing machine further comprises a workbench and a material receiving assembly 900, the spindle assembly 100, the clamp assembly 200, the material loading assembly 300, the material unloading assembly 800, the milling groove assembly 400, the centering assembly 500, the drilling assembly 600 and the tapping assembly 700 are respectively installed on the workbench, the material unloading assembly 800 is arranged on the side surface of the workbench, a slide is further arranged on the workbench, and the slide is connected between the material unloading assembly 800 and the material receiving assembly 900 so that a workpiece unloaded by the material unloading assembly 800 can slide into a hopper of the material receiving assembly 900 through the slide.

The automatic forehead temperature gun accessory processing machine is used for fully automatically processing forehead temperature gun accessories and comprises the following processing processes:

feeding: the main shaft assembly 100 drives the clamp assembly 200 to move to a feeding station, a product to be processed is placed into the quadrangular bars 305 through a manual or external manipulator, the feeding oil cylinder 302 drives the feeding push rod 304 to act to extrude the product from the quadrangular bars 305 and feed the product to the clamp assembly 200, and the clamp assembly 200 drives the movable clamp seat 203 to clamp relative to the fixed clamp seat 204 through the clamp oil cylinder 201, so that the fed product is clamped;

groove milling: the main shaft assembly 100 drives the clamp assembly 200 to move to a groove milling station, firstly, the machining position of a milling cutter is adjusted through the matching of a groove milling front and back fine adjustment sliding table 404 and a groove milling upper and lower fine adjustment sliding table 402, then, a cutter shaft on a milling cutter holder 405 drives the milling cutter to rotate so as to perform groove milling on a workpiece, for example, an inclined plane is washed out on the end face of a forehead temperature gun accessory;

centering: the main shaft assembly 100 drives the clamp assembly 200 to move to a centering station, firstly, a centering oil cylinder 502 and a centering upper and lower fine adjustment sliding table 503 are matched to adjust the processing position of a centering electric main shaft 504, then, the centering electric main shaft 504 operates to perform centering processing on a workpiece, the clamp assembly 200 is driven by the main shaft assembly 100 to horizontally move according to actual needs, and multiple centering processing at different positions can be performed on the same workpiece;

drilling: the main shaft assembly 100 drives the clamp assembly 200 to move to a drilling station, firstly, a drilling oil cylinder 603 is matched with a drilling upper and lower fine adjustment sliding table 602 to adjust the machining position of a drilling electric main shaft 604, then, the drilling electric main shaft 604 operates to drill the position of a centering point on a workpiece, the clamp assembly 200 is driven by the main shaft assembly 100 to move horizontally according to actual needs, and multiple times of drilling machining at different positions can be carried out on the same workpiece;

tapping: the main shaft assembly 100 drives the clamp assembly 200 to move to a tapping station, firstly, a tapping oil cylinder 703 is matched with a tapping upper and lower fine adjustment sliding table 702 to adjust the machining position of a tapping electric main shaft 704, then, the tapping electric main shaft 704 operates to tap holes drilled in a workpiece, the clamp assembly 200 is driven by the main shaft assembly 100 to move horizontally according to actual needs, tapping machining of different positions can be carried out on the same workpiece for multiple times, and at the moment, the workpiece is machined;

unloading: the main shaft assembly 100 drives the clamp assembly 200 to move to the unloading station, the unloading oil cylinder drives the material returning push rod to do telescopic motion through a piston rod of the unloading oil cylinder, the machined workpiece on the clamp assembly 200 can be ejected and unloaded, the unloaded workpiece slides into the hopper of the material receiving assembly 900 through the slide way, and then all processes of one workpiece are completed. The above steps are repeated, so that the batch processing of the workpieces is realized.

The main innovation of the invention is that: the main shaft assembly 100 drives the clamp assembly 200 to move to do linear reciprocating motion, so that the clamp assembly 200 reciprocates at each station and reciprocates once to complete all machining and feeding and discharging operations of a product, and therefore, a plurality of working procedures can be completed by one-time clamping, the machining time of the product is shortened, and the production efficiency is improved; and the extra loss caused by clamping the product for many times is reduced.

Although specific embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that these are merely examples and that many variations or modifications may be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims.

Claims (10)

1. An automatic processing machine for forehead temperature gun accessories is characterized by comprising a main shaft assembly, a clamp assembly, a feeding assembly, a discharging assembly, a milling groove assembly, a centering assembly, a drilling assembly and a tapping assembly, wherein the clamp assembly is connected with the main shaft assembly and driven by the main shaft assembly to do linear reciprocating motion, the feeding assembly, the discharging assembly, the milling groove assembly, the centering assembly, the drilling assembly and the tapping assembly are respectively arranged on the side face of the main shaft assembly and respectively correspond to one processing station, the clamp assembly can sequentially move to each processing station through linear reciprocating motion, the feeding assembly is used for feeding a workpiece to be processed onto the clamp assembly, and the milling groove assembly, the centering assembly, the drilling assembly and the tapping assembly are respectively used for milling grooves of the workpiece on the clamp assembly, The fixture assembly comprises a fixture assembly, a discharge assembly and a centering assembly, wherein the fixture assembly is used for machining a workpiece, and the discharge assembly is used for discharging the machined workpiece on the fixture assembly.

2. The automatic forehead thermometer subassembly processing machine according to claim 1, wherein the spindle assembly comprises a spindle slide rail, a spindle slider and a spindle servomotor, the spindle slider is slidably fitted on the spindle slide rail, the spindle servomotor drives the spindle slider to slide along the spindle slide rail through a lead screw transmission and the spindle slider, and the spindle slider is used for mounting the clamp assembly.

3. The automatic forehead temperature gun accessory processing machine according to claim 1, wherein the clamp assembly comprises a clamp supporting seat, a clamp oil cylinder, a fixed clamp seat and a movable clamp seat, the fixed clamp seat is arranged opposite to the movable clamp seat, the fixed clamp seat is fixedly arranged on the clamp supporting seat, the movable clamp seat is slidably arranged on the clamp supporting seat, the clamp oil cylinder is fixedly arranged on the clamp supporting seat, a piston rod of the clamp oil cylinder is connected with the movable clamp seat to drive the movable clamp seat to move, so that the movable clamp seat and the fixed clamp seat are matched to realize clamping or loosening in the moving process, clamping jaws are fixedly arranged on the fixed clamp seat and the movable clamp seat respectively, and a workpiece is clamped by the clamping jaws when the fixed clamp seat and the movable clamp seat are clamped.

4. The automatic forehead thermometer accessory processing machine according to claim 1, wherein the feeding assembly comprises a feeding support seat, a feeding oil cylinder, a feeding groove plate and four corner strips, wherein a sliding groove is formed in the feeding groove plate along the length direction of the feeding groove plate, the feeding oil cylinder is fixedly connected with the feeding support seat at one end of the sliding groove, the four corner strips are embedded in the sliding groove at one side far away from the feeding oil cylinder, a piston rod of the feeding oil cylinder is connected with a feeding push rod positioned in the sliding groove, and the feeding oil cylinder drives the feeding push rod to perform telescopic motion in the sliding groove along the sliding groove direction through the piston rod; the four-corner strip is provided with a feeding through hole and a feeding hole, the feeding through hole penetrates through the four-corner strip along the axial direction of the feeding push rod, and the feeding hole extends downwards from the top surface of the four-corner strip to the feeding through hole; the feeding push rod in telescopic motion is inserted into the feeding through hole, so that the workpiece placed into the feeding through hole through the feeding hole is extruded by the feeding push rod and is fed onto the clamp assembly.

5. The automatic processing machine for forehead temperature gun accessories according to claim 1, wherein the milling groove assembly comprises a milling groove pad, a milling groove support, a fine adjustment sliding table around the milling groove, a fine adjustment sliding table above and below the milling groove and a milling cutter base, the milling groove support passes through the fine adjustment sliding table around the milling groove and is installed on the top surface of the milling groove pad, the milling cutter base passes through the fine adjustment sliding table above and below the milling groove and is installed on the side surface of the milling groove support, a cutter shaft on the milling cutter base is used for connecting a milling cutter, wherein the adjustment direction of the fine adjustment sliding table around the milling groove is perpendicular to the adjustment direction of the fine adjustment sliding table above and below the milling groove, and the fine adjustment sliding table around the milling groove is matched with the fine adjustment sliding table above and below the milling groove to adjust the processing position of the milling cutter.

6. The automatic forehead thermometer accessory processing machine according to claim 1, wherein the centering assembly comprises a centering pad, a centering oil cylinder, a centering upper and lower fine adjustment sliding table and a centering main shaft, the centering upper and lower fine adjustment sliding table is arranged on the centering pad in a front-back sliding manner, the centering oil cylinder is fixed on the centering pad and connected with the centering upper and lower fine adjustment sliding table through a piston rod of the centering oil cylinder, the centering main shaft is mounted on the centering upper and lower fine adjustment sliding table, the telescopic direction of the centering oil cylinder is perpendicular to the adjusting direction of the centering upper and lower fine adjustment sliding table, and the centering oil cylinder is matched with the centering upper and lower fine adjustment sliding table to adjust the processing position of the centering main shaft.

7. The automatic processing machine of forehead temperature rifle accessory of claim 1, characterized in that, the drilling subassembly includes drilling backing block, drilling fine setting slip table from top to bottom, drilling hydro-cylinder and drilling electric main shaft, drilling fine setting slip table is fixed from top to bottom on the drilling backing block, drilling electric main shaft sets up through drilling slide slidable the side of drilling fine setting slip table from top to bottom, the drilling hydro-cylinder is fixed finely tune the slip table from top to bottom in drilling and through its piston rod with drilling electric main shaft is connected, the drilling hydro-cylinder with drilling fine setting slip table cooperation from top to bottom is in order to adjust drilling electric main shaft's machined position.

8. The automatic processing machine of forehead temperature gun accessory according to claim 1, wherein the tapping component comprises a tapping pad, a tapping upper and lower fine adjustment sliding table, a tapping oil cylinder and a tapping electric spindle, the tapping upper and lower fine adjustment sliding table is fixed on the tapping pad, the tapping electric spindle is slidably arranged on the side surface of the tapping upper and lower fine adjustment sliding table through a tapping sliding plate, the tapping oil cylinder is fixed on the tapping upper and lower fine adjustment sliding table and connected with the tapping electric spindle through a piston rod of the tapping oil cylinder, and the tapping oil cylinder is matched with the tapping upper and lower fine adjustment sliding table to adjust the processing position of the tapping electric spindle.

9. The automatic forehead thermometer accessory processing machine according to claim 1, wherein the discharging assembly comprises a discharging support seat and a discharging oil cylinder, the discharging oil cylinder is fixed on the discharging support seat, the front end of a piston rod of the discharging oil cylinder is connected with a material returning push rod, and the discharging oil cylinder drives the material returning push rod to move in a telescopic manner through the piston rod of the discharging oil cylinder so as to discharge a processed workpiece on the clamp assembly.

10. The automatic processing machine of forehead thermometer accessories according to any one of claims 1 to 9, wherein the automatic processing machine further comprises a workbench and a receiving assembly, the spindle assembly, the clamp assembly, the loading assembly, the unloading assembly, the milling slot assembly, the centering assembly, the drilling assembly and the tapping assembly are respectively mounted on the workbench, the unloading assembly is arranged on the side surface of the workbench, a slide way is further arranged on the workbench, and the slide way is connected between the unloading assembly and the receiving assembly so as to slide a workpiece unloaded by the unloading assembly into a hopper of the receiving assembly through the slide way.

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