CN217967541U - Automatic oil spraying device for template mold - Google Patents

Abstract

The utility model discloses an automatic oil spraying device for a template mould, which is provided with a base, at least two parallel Y-direction guiding devices and Y-direction walking devices; the Y-direction walking device is arranged on the Y-direction guiding device and moves to adjust the Y-direction displacement of the automatic oil spraying device; the Y-direction walking device comprises an X-direction supporting beam and at least two sliding supporting joints, wherein the X-direction supporting beam is overlapped between the Y-direction guiding devices; the plurality of sliding support joints are connected through a transmission shaft and are connected with corresponding Y-direction guiding devices through Y-direction guiding sliding blocks; two ends of the transmission shaft are respectively matched with the corresponding Y-direction guiding devices through gear structures, so that the automatic oil injection device can perform displacement adjustment along the X direction, the Y direction and the Z direction and can freely rotate for oil injection. The utility model discloses an automatic fueling injection equipment has once only realized automatically that accurate, control steadily to the multiaspect spraying of concrete form/mould on its corresponds walking direction to make whole structural design play tightly, the operation is stable high-efficient.

Description

Automatic oil spraying device for template mold

Technical Field

The utility model relates to the technical field, especially, relate to a template mould is with automatic fueling injection equipment.

Background

In the concrete formwork manufacturing process, in order to facilitate later demolding, a layer of oil is sprayed on the formwork before concrete pouring.

Before the device, the sprayer is manually held to spray oil to the inner cavity of the die, the spraying is uneven, dangers exist in the operation process, and the dispersed oil mist is harmful to human bodies when being sucked. In the prior art, chinese patent CN20142080053.9 discloses a special automatic oil injection device for an aerated concrete block mold, which controls a cylinder, a high-pressure oil pump and an oil delivery pipe to automatically inject oil for the mold through a PLC controller, so as to realize automatic oil injection, avoid manual oil brushing, improve work efficiency, reduce labor cost, guarantee product quality, and reduce potential safety hazards and health hazards of workers. But this automatic fueling injection equipment is when using, and the concrete form outward appearance degree of consistency that obtains is not good, and some places need spraying many times in addition, and local shape complex position need spray repeatedly or manual fat liquoring, and the influence scribbles the progress, and work efficiency is lower relatively.

In addition, in prior art, chinese patent CN 213166018U further discloses a mould oiling device for aerated concrete building material production, through utilizing flexible oil spout mechanism and flexible wiping mechanism to cooperate, after descending at flexible oil spout mechanism and carrying out the oil spout processing to the pouring cavity in the mould, flexible wiping mechanism is followed closely and is carried out the round brush to the pouring cavity inner wall, during the round brush, the roller is paintd simultaneously with the side to the center on the flexible wiping mechanism of smearing roller, and in order to prevent the roller from paining with the side in the center, utilize from rotating drive mechanism to drive the center and paint roller and scribble the roller and scribble synchronous autogyration of roller and side and carry out disposable round brush to all lateral walls in the pouring cavity, realize scribbling the even distribution of mould oil, solve the technical problem that there is the round brush dead angle in the round brush process. This mould scribbles the equipment and paints the concrete mould degree of consistency that obtains good, need not to paint repeatedly moreover, but to the concrete model that local shape is complicated to and the concrete model of some non-surfaces contact of not being convenient for, do not brush oil well on the one hand, on the other hand needs to design whole fat liquoring equipment more wonderfully and complicated, just can accomplish, but so will increase equipment cost and operation, control degree of difficulty.

Therefore, the technical problem to be solved by the patent is as follows: how guarantee that concrete mold scribbles good homogeneity when, provide a simple structure, reasonable in design, cost are lower, moreover can once only automatic spraying to each position of concrete mold, need not to change the position of mould to improve the automatic fueling injection equipment of efficiency of paining of concrete mold.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a when having guaranteed that concrete mold scribbles even good homogeneity, simple structure, cost are lower, can spray each position to concrete mold moreover to a template mould is with automatic fueling injection equipment of efficiency has been paintd to concrete mold has been improved.

The utility model adopts the technical proposal that: an automatic oil spraying device for a template mould is provided with a base, at least two parallel Y-direction guiding devices and Y-direction walking devices; the base is provided with two support plates which are arranged separately, and a mould placing cavity is formed between the two support plates; the Y-direction walking device is arranged on the Y-direction guiding device and moves to adjust the Y-direction displacement of the automatic oil spraying device;

the Y-direction walking device comprises an X-direction supporting beam lapped between the Y-direction guiding devices and at least two sliding supporting joints connecting the X-direction supporting beam to the Y-direction guiding devices;

a plurality of the sliding support joints are connected through transmission shafts, and each sliding support joint is connected with the corresponding Y-direction guiding device through a Y-direction guiding slide block;

the two end parts of the transmission shaft are respectively matched with the corresponding Y-direction guiding devices through gear structures to realize stable movement in the Y direction, the transmission shaft is driven by a Y-direction servo motor to drive an X-direction walking device, a Z-direction lifting device and an automatic oil spraying device which are connected to the transmission shaft to walk in the Y direction, and meanwhile, the Y-direction servo motor is fixed on an X-direction supporting beam;

the automatic oil injection device rotates to adjust the angle under the driving of the rotating device, and displacement adjustment is carried out along the X direction, the Y direction and the Z direction under the driving of the X direction walking device, the Y direction walking device and the Z direction lifting device respectively.

Preferably, the X-direction walking device is connected with the Y-direction guiding device through an X-direction sliding block and walks together with the Z-direction lifting device and the automatic oil spraying device which are connected with the X-direction guiding device through the X-direction fixed support and the X-direction guiding device.

Preferably, the X-guide device includes:

the X-direction guide rack is fixed on the X-direction supporting beam and used for driving the X-direction walking device to be meshed with the X-direction guide rack so as to walk on the X-direction supporting beam by the X-direction servo motor; and

the number of the guide rails is at least two, and the guide rails are respectively fixed on the X-direction supporting beam in parallel.

Preferably, the Z-direction lifting device includes:

the Z-direction upright post is used for enabling an oil pipe of the automatic oil injection device to penetrate through so as to be connected with an oil injection nozzle; and

and the vertical sliding block is fixed on an X-direction fixed support of the X-direction walking device and is provided with a Z-direction sliding groove for supplying the Z-direction lifting device to lift, and the vertical sliding block drives the Z-direction upright post, the oil injection device and the rotating device to move along the Z direction under the driving of the Z-direction servo motor to adjust the position of the oil injection device.

Preferably, the Z-direction lifting device further comprises a plurality of Z-direction sliding limiting blocks;

and the Z-direction sliding limiting blocks are respectively arranged on the outer sides of the Z-direction stand columns in the Z-direction sliding grooves and are matched with the Z-direction vertical guide rails fixed on the outer sides of the Z-direction stand columns.

Preferably, the rotating means comprises a rotary servo motor;

the rotary servo motor is connected with an oil pipe and an oil nozzle of the automatic oil injection device.

Preferably, the servo motor is fixed on the top of the Z-direction upright post through a rotary support.

Preferably, an oil nozzle of the automatic oil injection device is of a three-dimensional structure;

and the oil pipe comprises at least one main oil supply pipe, a plurality of branch oil supply pipes and oil nozzles arranged at the tail ends of the main oil supply pipe and each branch oil supply pipe.

Preferably, a mist absorber is further connected to the side surface of the automatic oil injection device;

the mist absorber is arranged on the side face of the oil nozzle and comprises an oil suction cover, an oil suction pipe, an oil storage tank and mist suction power which are sequentially arranged.

Preferably, the Y-guide device comprises a Y-guide support fixed to the top of the base, a Y-linear guide fixed to the top of the Y-guide support, and a Y-guide rack fixed to one end of the Y-guide support facing the Z-lifter.

Preferably, each of the Y-guide supports is supported by a plurality of spaced support stubs, and the support stubs are fixed to the base by fastening connection means.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the multi-surface spraying of the concrete template/mould is realized at one time:

the X-direction walking device, the Y-direction walking device, the Z-direction lifting device and the rotating device are coordinated and matched to drive the whole automatic oil spraying device to freely walk at each position in the X, Y and Z directions, and simultaneously rotate at the same or different positions to realize the spraying of the special-shaped template/mould.

2. Realized accurate, control the transmission on its corresponding walking direction steadily to set up the connection structure between each mechanism device rationally, made whole structural design tightly play, the transmission is high-efficient, stable:

the X-direction walking device, the Y-direction walking device, the X-direction walking device and the Z-direction lifting device are meshed with the rack through a transmission shaft during walking and are controlled by servo driving.

3. The automatic oil spraying device is provided with the rotary device capable of rotating universally, free rotary spraying of various angles, various shapes and various spaces of the special-shaped template or the die is achieved, spraying efficiency is improved, and manual spraying operation time is saved.

4. The whole automatic oiling device is improved to have better coordination: and the Z-direction lifting device and the automatic oil spraying device are supported/backed on the X-direction supporting beam to jointly walk.

5. The multi-guide and guide device structure, the rack and the meshing gear are matched with the guide structure, so that the movement stability of the whole device is improved.

6. The three-dimensional automatic oil spraying device realizes the timely spraying adjustment of different parts and directions of the same product.

To sum up, the utility model discloses an automatic fueling injection equipment is used to template mould has once only realized the multiaspect spraying to concrete form/mould, has realized the accuracy, has stably controlled the transmission on its corresponding walking side to rationally set up the connection structure between each mechanism device, make whole structural design tightly play an instrument, the transmission is high-efficient, stable.

Drawings

FIG. 1 is a three-dimensional structural view of an automatic fuel injection apparatus for a template mold;

FIG. 2 is a plan view of an automatic oil spout device for a mold plate;

fig. 3 is a structural view of the Y-direction traveling device 40;

FIG. 4 is a front view of the Z-direction elevator;

FIG. 5 is a three-dimensional structure view of the Z-direction lifting device;

FIG. 6 is a block diagram of the mist eliminator 90;

fig. 7 is a three-dimensional structural view of the automatic fuel injection device 60;

FIG. 8 is an enlarged view of a portion of FIG. 1 at A;

FIG. 9 is an enlarged partial view taken at A of FIG. 3;

wherein: the device comprises a 10-X-direction walking device, a 11-X-direction sliding block, a 12-X-direction fixed support and a 13-X-direction servo motor;

20-X guide device, 21-X guide rack, 22-guide track;

30-Y direction guiding device, 31-Y direction guiding support, 32-Y direction guiding rack and 33-Y direction linear guide rail;

the device comprises a 40-Y-direction walking device, a 41-X-direction supporting beam, a 42-sliding supporting joint, a 43-gear structure, a 44-Y-direction servo motor, a 45-transmission shaft, a 46-transmission shaft fixing support and a 47-Y-direction guiding sliding block;

a 50-Z-direction lifting device, a 51-Z-direction upright post, a 52-vertical sliding block and a 521-Z-direction sliding groove; a 53-Z direction sliding limiting block, a 54-Z direction servo motor and a 55-Z direction vertical guide rail;

60-automatic oil injection device, 61-oil pipe, 611-main oil supply pipe and 612-branch oil supply pipe; 62-oil spray nozzle;

70-rotating device, 71-rotating servo motor, 72-rotating support, 73-rotating shaft;

80-support stub, 81-fastening connection means;

90-mist absorber, 91-oil suction cover, 92-oil suction pipe, 93-oil storage tank, and 94-mist suction power;

100-base, 101-support plate, 102-mold placing cavity;

110-mold/template.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the combination or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. In addition, in the description process of the embodiment of the present invention, the position relationships of the devices such as "up", "down", "front", "back", "left", "right" in all the drawings all use fig. 1 as a standard.

As shown in fig. 1, an automatic oil spraying device for a template mold comprises a base 100, at least two parallel Y-direction guiding devices 30 and Y-direction traveling devices 40; the base 100 has two support plates 101 separately arranged, and a mold placing cavity 102 formed between the two support plates 101 places a mold/template 110; the Y-direction walking device 40 is arranged on the Y-direction guiding device 30 and moves to adjust the Y-direction displacement of the automatic oil spraying device 60;

the Y-direction walking device 40 comprises an X-direction supporting beam 41 overlapped between the Y-direction guiding devices 30 and at least two sliding supporting joints 42 for connecting the X-direction supporting beam 41 to the Y-direction guiding devices 30;

as can be seen from fig. 2, several of the sliding support joints 42 are connected by transmission shafts 45, and each sliding support joint 42 is connected to its corresponding Y-guide 30 by a Y-guide slider 47;

the two end parts of the transmission shaft 45 are respectively matched with the corresponding Y-direction guiding device 30 through a gear structure 43 to realize stable movement in the Y direction, the transmission shaft drives the X-direction walking device 10, the Z-direction lifting device 50 and the automatic oil spraying device 60 which are connected with the transmission shaft 45 to walk in the Y direction under the drive of the Y-direction servo motor 44, and meanwhile, the Y-direction servo motor 44 is fixed on the X-direction supporting cross beam 41, and the specific fixing mode is that the transmission shaft fixing support 46 is used as an intermediate connecting piece for connection, specifically, the transmission shaft fixing support 46 and the X-direction supporting cross beam 41 are used, and then the Y-direction servo motor 44 is fixed on the transmission shaft fixing support 46, so that the Y-direction servo motor 44 is connected with the transmission shaft 45 to be matched and cooperated;

as shown in fig. 1 to 5, the automatic oil spraying device 60 is driven by the rotating device 70 to rotate and adjust the angle, and is driven by the X-direction traveling device 10, the Y-direction traveling device 40 and the Z-direction lifting device 50 to perform displacement adjustment along the X-direction, the Y-direction and the Z-direction, respectively, and the automatic oil spraying device 60 is driven by the X-direction traveling device, the Y-direction traveling device 40 and the Z-direction lifting device 50 to perform automatic oil spraying on different positions of the concrete formwork mold, and simultaneously performs multi-angle spraying on the same position; in addition, the main improvement point of this patent is the specific connection structure of the Y-direction running gear and the Y-direction guiding gear 30, and the connection structure is: the transmission shaft 45 and the corresponding sliding support joint 42 are used for realizing the integrated cooperative connection of the plurality of Y-direction guide devices 30, and the transmission shaft 45 is driven by the Y-direction servo motor 44 fixed on the X-direction support beam 41, so that the automatic oil injection device 60 can stably walk in the Y direction, and meanwhile, the structure is simple and compact, and the application and economic values are high.

As shown in fig. 1 and 2, the X-direction traveling device 10 is connected to the Y-direction guide device 30 via the X-direction slider 11 and travels together with the Z-direction elevating device 50 and the automatic fuel injection device 60 connected thereto via the X-direction fixing support 12 and the X-direction guide device 20; the X-direction walking device 10 supports/backs the Z-direction lifting device 50 and the automatic oil spraying device 60 on the X-direction supporting cross beam 41 through the X-direction fixed support 12 to jointly walk, so that the whole automatic oil filling device has better coordination.

As shown in fig. 1 and 2, the X-guide 20 of the automatic fuel injection device includes:

an X-direction guide rack 21, wherein the X-direction guide rack 21 is fixed on the X-direction supporting beam 41 and is used for driving the X-direction walking device 10 to be meshed with the X-direction guide rack 21 by the X-direction servo motor 13 so as to walk on the X-direction supporting beam 41; and

and at least two guide rails 22 are arranged, the guide rails 22 are respectively fixed on the X-direction supporting cross beam 41 in parallel, and the Z-direction lifting device 50 and the automatic oil spraying device 60 are supplied to move, adjust and travel along the X direction, so that the moving stability of the whole X-direction moving device 40 can be enhanced.

As shown in fig. 3 to 5, the Z-direction elevating device 50 of the automatic fuel injection device includes:

a Z-direction upright 51, through which an oil pipe 61 of the automatic fuel injection device 60 is passed to connect an oil nozzle 62 to the Z-direction upright 51; and

and the vertical sliding block 52 is fixed on the X-direction fixed support 12 of the X-direction walking device 10, is provided with a Z-direction sliding chute 521 for supplying the lifting of the Z-direction lifting device 50, and drives the Z-direction upright post 51, the oil injection device 60 and the rotating device 70 to move along the Z direction under the driving of the Z-direction servo motor 54 so as to adjust the position of the oil injection device 60, so that the rotating device 70 and the automatic oil injection device 60 are driven to automatically lift.

As shown in fig. 3, the Z-direction lifting device 50 of the automatic oil injection device for the template mold further comprises a plurality of Z-direction sliding limit blocks 53;

as shown in fig. 1 and 5, the plurality of Z-direction sliding stoppers 53 are respectively disposed on the outer side of the Z-direction upright 51 in the Z-direction sliding groove 521, and are matched with the Z-direction vertical guide rail 55 fixed on the outer side of the Z-direction upright 51 to limit and guide the Z-direction lifting device, so that the Z-direction sliding stoppers have better Z-direction stable movement performance, and ensure that the automatic oil injection device 60 has stable movement performance in the Z-direction. See figure 8 for details.

As shown in fig. 1, 3 and 9, the rotating device 70 of the automatic oil spraying device for the template mold includes a servo motor 71;

the servo motor 71 is connected with the oil pipe 61 and the oil nozzle 62 of the automatic oil injection device 60 to drive the automatic oil injection device to rotate, so that the oil injection position of the oil nozzle 62 is adjusted, and timely spraying adjustment of different positions and directions of the same product is realized.

As shown in fig. 4 and 5, the rotary servo motor 71 of the automatic oil injection device for the template mold is fixed on the top of the Z-direction column 51 through the rotary support 72, so that it is better to ensure that the oil injection angle is adaptively adjusted by connecting the whole automatic oil injection device 60 through the rotary shaft 73 and rotating the oil injection nozzle 62 with a minimum power consumption of the rotary servo motor 71.

As shown in detail in fig. 7, an oil jet nozzle 62 of the automatic oil jetting device 60 of the automatic oil jetting device for a template mold has a three-dimensional structure;

the oil pipe 61 comprises at least one main oil supply pipe 611, a plurality of branch oil supply pipes 612 and oil nozzles 62 arranged at the tail ends of the main oil supply pipe 611 and each branch oil supply pipe 612, and the oil nozzles with the structure can meet the requirement of three-dimensional spraying of one or more concrete formwork molds, so that the spraying efficiency of the concrete formwork molds is improved.

As shown in fig. 5 and 6, a mist absorber 90 is further connected to a side surface of the automatic oil spraying device 60 of the automatic oil spraying device for the template mold;

the mist absorber 90, which is disposed on the side of the oil nozzle 62, includes an oil suction cover 91, an oil suction pipe 92, an oil storage tank 93, and a mist suction power 94, which are sequentially disposed, in a specific implementation process, the mist suction power 94 may be an oil cylinder, an air cylinder, or a motor, or may be a manual power, and the manual power generally refers to a manually operable structure, such as an air bag pneumatic structure.

As shown in fig. 2, the Y-guide device 30 of the automatic oil spraying device for the template mold comprises a Y-guide support 31 fixed on the top of a base 100, a Y-guide linear rail 33 fixed on the top of the Y-guide support 31, and a Y-guide rack 32 fixed on one end of the Y-guide support 31 facing to a Z-lifting device 50, wherein during a specific use process, the Y-guide linear rail 33 and the Y-guide rack respectively play a role of contact support for corresponding sliding support joints, and move and guide a traveling device arranged thereon at two different support points, and the Y-guide device 30 has good contact stability and motion stability, and has good use effect; in addition, the structure of the Y-direction guide support 31 can be an aluminum profile or a profile structure in the specific implementation process, the support strength is better, and the purchase is convenient.

As can be seen from fig. 1, each of the Y-direction guides 31 of the automatic oil spraying device for the form mold is supported by a plurality of support posts 80 arranged at intervals, and the support posts 80 are fixed on the base 100 by fastening connection devices 81, in the specific implementation, the support posts 80 are hollow structures, and the bottom of the support posts 80 is provided with a fixed connection structure for fixedly connecting the support posts with the base 100. The specific fastening connection device refers to common fixing structures such as bolts, screws, rivets and the like, and can also be structures such as bolts, hoops and the like. Or may be welded so long as the purpose is to fixedly connect them into an integral structure.

In particular, the X-direction servo motor, the Y-direction servo motor, the Z-direction servo motor of the lifting device, and the rotary servo motor are generally provided with a PLC controller, and the PLC controller may control the operating state thereof, or may be a controller having a control function similar to that of the PLC.

The embodiment of the present invention discloses a preferred embodiment, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention according to the above-mentioned embodiment, and make different applications and changes, but do not depart from the spirit of the present invention, all of which are within the protection scope of the present invention.

Claims (11)

1. An automatic oil spraying device for a template mould is provided with a base (100), at least two parallel Y-direction guiding devices (30) and Y-direction walking devices (40); the base (100) is provided with two support plates (101) which are arranged separately, and a mould placing cavity (102) formed between the two support plates (101); the method is characterized in that:

the Y-direction walking device (40) comprises an X-direction supporting beam (41) overlapped between the Y-direction guiding devices (30) and at least two sliding supporting joints (42) for connecting the X-direction supporting beam (41) to the Y-direction guiding devices (30);

a plurality of the sliding support joints (42) are connected through transmission shafts (45), and each sliding support joint (42) is connected with the corresponding Y-direction guide device (30) through a Y-direction guide sliding block (47);

the two end parts of the transmission shaft (45) are respectively matched with the corresponding Y-direction guide devices (30) through gear structures (43), the transmission shaft drives an X-direction walking device (10), a Z-direction lifting device (50) and an automatic oil spraying device (60) which are connected to the transmission shaft to walk in the Y direction under the drive of a Y-direction servo motor (44), and the Y-direction servo motor (44) is fixed on an X-direction supporting beam (41);

the automatic oil injection device (60) is driven by the rotating device (70) to rotate for adjusting the angle, and is driven by the X-direction walking device (10), the Y-direction walking device (40) and the Z-direction lifting device (50) to respectively perform displacement adjustment along the X direction, the Y direction and the Z direction.

2. The automatic oil spraying device for the template mold as claimed in claim 1, wherein:

the X-direction running device (10) is connected with the Y-direction guiding device (30) through an X-direction sliding block (11) to run, and is connected with the Z-direction lifting device (50) and the automatic oil spraying device (60) through an X-direction fixed support (12) and the X-direction guiding device (20) to run together.

3. The automatic oil spout device for a mold plate of claim 2, wherein:

the X-direction guide device (20) comprises:

the X-direction guide rack (21) is fixed on the X-direction supporting beam (41) and used for supplying the X-direction servo motor (13) to drive the X-direction walking device (10) to be meshed with the X-direction guide rack (21) so as to walk on the X-direction supporting beam (41); and

the number of the guide rails (22) is at least two, and the guide rails (22) are respectively fixed on the X-direction supporting cross beam (41) in parallel.

4. The automatic oil spraying device for the template mould as claimed in claim 1, characterized in that:

the Z-direction lifting device (50) comprises:

a Z-direction upright post (51), wherein an oil pipe (61) of an automatic oil injection device (60) is supplied to the Z-direction upright post (51) to penetrate through so as to be connected with an oil injection nozzle (62); and

the vertical sliding block (52) is fixed on an X-direction fixed support (12) of the X-direction walking device (10), a Z-direction sliding groove (521) for supplying the Z-direction lifting device (50) to lift is arranged, and the vertical sliding block drives the Z-direction upright post (51), the oil injection device (60) and the rotating device (70) to move along the Z direction under the driving of the Z-direction servo motor (54) to adjust the position of the oil injection device (60).

5. The automatic oil spraying device for the template mold as claimed in claim 4, wherein:

the Z-direction lifting device (50) further comprises a plurality of Z-direction sliding limiting blocks (53);

and the Z-direction sliding limiting blocks (53) are respectively arranged on the outer sides of the Z-direction upright posts (51) in the Z-direction sliding grooves (521) and are matched with the Z-direction vertical guide rails (55) fixed on the outer sides of the Z-direction upright posts (51).

6. The automatic oil spraying device for the template mold as claimed in claim 5, wherein:

the rotating means (70) comprises a rotary servomotor (71);

the rotary servo motor (71) is connected with an oil pipe (61) and an oil nozzle (62) of the automatic oil injection device (60).

7. The automatic oil spraying device for the template mold as claimed in claim 6, wherein:

the rotary servo motor (71) is fixed on the top of the Z-direction upright post (51) through a rotary support (72).

8. The automatic oil spout device for a mold plate according to any one of claims 1 to 7, wherein:

an oil pipe (61) of the automatic oil injection device (60) is of a three-dimensional structure;

and the oil pipe (61) includes at least one main oil supply pipe (611) and a plurality of branch oil supply pipes (612), and an oil jet (62) provided at an end of the main oil supply pipe (611) and each of the branch oil supply pipes (612).

9. The automatic oil spraying device for the template mold as claimed in claim 8, wherein:

the side surface of the automatic oil injection device (60) is also connected with a mist absorber (90);

the oil spray nozzle (62) is arranged on the side surface of the oil spray nozzle (90), and comprises an oil suction cover (91), an oil suction pipe (92), an oil storage tank (93) and an oil spray power (94).

10. The automatic oil spout device for a mold plate according to any one of claims 1 to 9, wherein:

the Y-direction guide device (30) comprises a Y-direction guide support (31) fixed to the top of the base (100), a Y-direction linear guide rail (33) fixed to the top of the Y-direction guide support (31), and a Y-direction guide rack (32) fixed to one end, facing the Z-direction lifting device (50), of the Y-direction guide support (31).

11. The automatic oil spout device for a mold plate of claim 10, wherein:

each Y-direction guide support (31) is supported by a plurality of support posts (80) arranged at intervals, and the support posts (80) are fixed on the base (100) through fastening connection devices (81).

Images