CN217276262U - Mould detects location integral structure - Google Patents

Abstract

The application provides a mould detects location integral structure, including the mould main part, be provided with in the mould main part and detect locating component, it includes to detect locating component: the positioning blocks are detachably arranged at the bottoms of the front side and the rear side of the die main body; the supporting seat is arranged at the bottom of the die main body in a sliding manner; the detection positioning part is arranged at the top of the supporting seat; wherein, the detection positioning portion includes: the die comprises a support seat, a push plate and a positioning plate, wherein the push plate is arranged at the top of the support seat in a sliding mode and is arranged on one side of the die body, the positioning plate is arranged at the top of the support seat in a sliding mode and is arranged on the other side of the die body in a sliding mode, and a pressing part is arranged on the positioning plate. This technical scheme sets up on the supporting seat through the mould main part slides, adjusts the mounted position of locating plate definite mould main part through double-screw bolt two, makes the push pedal promote the mould main part through rotating double-screw bolt one and removes and can fix a position the mould main part at the mounted position until its opposite side laminating with the locating plate, and convenient to use is swift.

Description

Mould detects location integral structure

Technical Field

The utility model relates to a mould detects location technical field, specifically is a mould detects location integral structure.

Background

At present, in the process of producing automobile spare and accessory parts, the processing through a die is an important step. The die needs to be installed at a designated position when being installed and used, and the installation position of the die is mostly required to be detected and positioned, so that the damage of machined automobile parts during machining is prevented. But current mould mounted position detects the location and generally adopts artifical naked eye to judge the adjustment, needs artifical regulation and control many times when this kind of mode not only has the deviation, has increased artifical burden, can not provide the stationary force to the mould after the mould location is installed the position simultaneously, leads to the mould can produce when the mould uses and rocks, influences the automobile parts quality of machine-shaping to the processing cost has been increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mould detects location integral structure to the mounted position that can't fix a position the mould and rock the problem when avoiding its use that proposes in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a mould detects location integral structure, includes the mould main part, be provided with the detection locating component in the mould main part, the detection locating component includes: the positioning blocks are detachably arranged at the bottoms of the front side and the rear side of the die main body;

the supporting seat is arranged at the bottom of the die main body in a sliding manner;

the detection positioning part is arranged at the top of the supporting seat;

wherein, the detection positioning portion includes: the detection positioning part is used for positioning the die main body and giving downward fixing force to the die main body through the pressing part during positioning.

The improved structure of the support seat is characterized in that the bottom of the push plate is in sliding connection with a T-shaped sliding groove I in the center of the top of the support seat in a matched mode through a group of T-shaped sliding blocks I, a stud I is arranged in the T-shaped sliding groove I in a rotating mode, the T-shaped sliding blocks are sleeved on the outer wall of the stud I in a threaded mode, and the left end of the stud I movably penetrates through the left side wall of the support seat.

The improved structure is characterized in that the bottom of the positioning plate is in matched sliding connection with a T-shaped sliding groove II at the top of the supporting seat through two groups of T-shaped sliding blocks II, the T-shaped sliding groove I is arranged on the inner sides of the two groups of T-shaped sliding grooves II, a stud II is arranged in the T-shaped sliding groove II in a rotating mode, the outer wall of the stud II is sleeved with the T-shaped sliding block through threads, the right end of the stud II movably penetrates through the right side wall of the supporting seat, an auxiliary rod is arranged in the middle of the right side wall of the supporting seat in a rotating mode, and the auxiliary rod is in transmission connection with the two groups of studs through a chain wheel transmission set.

In a further improvement, the press-fixing portion includes:

two groups of first air compression devices are respectively arranged at two ends of the outer side of the positioning plate;

the supporting frames are arranged at the bottoms of the front side and the rear side of the positioning plate;

the U-shaped frame is arranged at the other end of the supporting frame;

a second air pressing device arranged at the top of the U-shaped frame through a mounting frame;

the L-shaped pressing block is arranged in the U-shaped frame in a sliding mode and matched with the positioning block;

the inner chambers of the first air compressing device and the second air compressing device are communicated with each other through air pipes, the first air compressing device and the second air compressing device are identical in structure, the first air compressing device and the second air compressing device respectively comprise a sealing cylinder, a piston movably arranged in the sealing cylinder, a piston rod connected with one end of the piston, an elastic piece sleeved on the outer wall of the piston rod and an air vent arranged on one side of the sealing cylinder, and the L-shaped pressing block is arranged on the outer side of the die body.

The improved structure of the air compressing device is characterized in that the other end of a piston rod in the first air compressing device movably penetrates through the sealing barrel and the positioning plate and is connected with a contact disc, the other end of the piston rod in the second air compressing device is connected with the top of the L-shaped pressing block, the contact disc is pushed by the moving die body, and air in the sealing barrel in the first air compressing device enters the sealing barrel in the second air compressing device through an air pipe.

The improved structure is characterized in that the U-shaped frame is in sliding connection with the vertical sliding grooves of the two side walls of the L-shaped pressing block in a matched mode through the sliding blocks on the inner walls of the two sides, the inner wall of the top of each vertical sliding groove is connected with one end of an elastic resetting piece, and the other end of each elastic resetting piece is connected with the top of the sliding block.

The further improvement lies in that the side all sets up the rectangle slider around the mould main part bottom, and the supporting seat top offer with the spout of rectangle slider adaptation.

To sum up, the application discloses there is a mould to detect location integral structure.

According to the technical scheme, the die main body for machining the automobile parts is arranged on the supporting seat in a sliding mode, the positioning plate is adjusted through the second stud to determine the mounting position of the die main body, the first stud is rotated to enable the push plate to push the die main body to move until the push plate is attached to the other side of the positioning plate, and then the die main body can be positioned at the mounting position;

furthermore, on the basis of above-mentioned structural design, this application is still through being provided with the press solid portion, when the push pedal promotes the mould main part and removes, make the mould main part opposite side and the contact disc contact that are used for processing automobile parts, and when this mould main part continues to remove, the air in the sealed section of thick bamboo of the device of calming the anger in the device of calming the anger passes through the trachea and impresses the sealed section of thick bamboo of the device of calming the anger that corresponds in the device of calming the anger, and then the L shape briquetting of the device of calming the anger is pressed downwards, when mould main part and locating plate one side laminating, L shape briquetting contact locating piece and give its decurrent pressure, it shakes to reduce the mould main part vertical direction appear when using, improve processingquality.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a perspective view of a mold inspection and positioning integrated structure according to the present application;

FIG. 2 is a perspective view of a detection position in the integrated mold detection and positioning structure of the present application;

fig. 3 is a perspective view of a fixing part in the integrated structure for detecting and positioning a mold.

In the figure: 1. a mold body; 2. detecting a positioning component; 21. positioning blocks; 22. a supporting base; 23. detecting a positioning part; 231. a stud I; 232. pushing the plate; 233. positioning a plate; 234. a drive rod; 235. a sprocket drive group; 236. a second stud; 24. a press-fixing part; 241. a first air compressing device; 242. a contact pad; 243. an air pipe; 244. a second air compressing device; 245. a U-shaped frame; 246. a support frame; 247. an L-shaped pressing block; 248. an elastic reset piece.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that, in the present application, the embodiments and features of the embodiments may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

Referring to fig. 1, a mold detection and positioning integrated structure includes a mold main body 1, a detection positioning assembly 2 is disposed on the mold main body 1, the detection positioning assembly 2 includes positioning blocks 21 fixed to the bottom of the front and rear sides of the mold main body 1 by bolts and a supporting seat 22 disposed at the bottom of the mold main body 1, the positioning blocks 21 are used for cooperating with a press-fixing portion 24, which will be described in detail below, to prevent the mold main body 1 from moving in a vertical direction when in use;

the bottom of the die main body 1 is provided with two sets of sliding blocks matched with sliding grooves formed in the top of the supporting seat 22, the sliding blocks are rectangular sliding blocks, so that the die main body 1 can be separated from the supporting seat 22 upwards, the die main body 1 can horizontally move at the top of the supporting seat 22 through the sliding blocks and the sliding grooves, and the top of the supporting seat 22 is provided with a detection positioning part 23 for positioning the die main body 1 at an appointed installation position. The mold body 1 is a mold for processing automobile parts, which is conventional in the art and will not be described in detail herein;

as shown in fig. 2, the detecting and positioning portion 23 includes a push plate 232 disposed at one side of the mold main body 1, the push plate 232 is slidably connected with a T-shaped sliding slot disposed at the middle of the top of the supporting seat 22 in a matching manner by using a group of T-shaped sliders one at the bottom, the T-shaped slider one is sleeved on the outer wall of the stud one 231 in a threaded manner, the stud one 231 rotates to drive the T-shaped slider one to horizontally move in the T-shaped sliding slot one, and the stud one 231 is horizontally disposed in the T-shaped sliding slot one;

the right end of the first stud 231 is rotatably connected with the inner wall of the right side of the T-shaped sliding groove through a bearing, and the left end of the first stud 231 movably penetrates through the left side wall of the supporting seat 22 and then is connected with a hand wheel for manual rotation of a user. By rotating the hand wheel, the first stud 231 is rotated, and the push plate 232 pushes the die body 1 to move to a specified mounting position.

Example 2

As shown in fig. 2, a positioning plate 233 is arranged at the top of the supporting seat 22 and at the other side of the mold main body 1, the positioning plate 233 is in sliding connection with a second T-shaped sliding slot formed at the top of the supporting seat 22 in a matching manner by using a second T-shaped sliding block on two sides of the bottom of the positioning plate 233, the second T-shaped sliding slot is arranged at the outer side of the first T-shaped sliding slot, the positioning plate 233 can horizontally move at the top of the supporting seat 22 through the second T-shaped sliding block and the second T-shaped sliding slot, the second T-shaped sliding block is sleeved on the outer wall of a second stud 236, the second stud 236 rotates to enable the second T-shaped sliding block to move in the second T-shaped sliding slot, the position of the positioning plate 233 is adjusted, that is, the installation position of the mold main body 1 is determined, and then the mold main body 1 is pushed by a push plate 232 to enable the other side of the mold main body 1 to contact with the positioning plate 233;

the second stud 236 is rotatably arranged in the second T-shaped sliding groove, the left end of the second stud 236 is rotatably connected with the inner wall of the left side of the second T-shaped sliding groove by a bearing, the other end of the second stud 236 movably penetrates through the right side wall of the supporting seat 22, a driving rod 234 is rotatably arranged on the right side wall of the supporting seat 22 and between the two sets of second studs 236, and the driving rod 234 is in transmission connection with the two sets of second studs 236 through a chain wheel transmission set 235;

when it is required to be described, a hand wheel for manual rotation of a user is provided at the other end of the driving rod 234. The chain wheel transmission group 235 belongs to the prior art and comprises a chain wheel and a chain, when the driving rod 234 is rotated, the two stud pairs 236 synchronously move in the same direction through the chain wheel transmission group 235, and the position of the positioning plate 233 at the top of the supporting seat 22 is adjusted.

Push pedal 232 in embodiment 1 and embodiment 2 and the relative one side of locating piece 21 all set up flexible rubber pad and mould main part 1 outer wall contact, avoid causing mould main part 1 outer wall damage.

Example 3

As shown in fig. 3, the pressing part includes first air pressing devices 241 arranged on the outer side wall of the positioning plate 233, the first air pressing devices 241 are divided into two groups, the two groups of first air pressing devices 241 are respectively arranged at two ends of the outer side wall of the positioning plate 233, a contact disc 242 matched with the other side of the mold main body 1 is arranged on the inner side of the first air pressing devices 241, L-shaped support frames 246 are symmetrically arranged on the front and rear sides of the positioning plate 233, a U-shaped frame 245 is arranged at the other end of the support frame 246, an L-shaped pressing block 247 matched with the positioning block 21 is slidably inserted in the U-shaped frame 245, the L-shaped pressing block 247 is arranged on the outer side of the mold main body 1 and corresponds to the positioning block 21, a second air pressing device 244 driving the L-shaped pressing block 247 to move up and down is arranged at the top of the U-shaped frame 245 through a mounting frame, and inner cavities of the second air pressing devices 244 and the first air pressing devices 241 are communicated with each other through an air pipe 243;

the first air compressing device 241 and the second air compressing device 244 have the same structure and respectively comprise a group of sealing cylinders, pistons movably arranged in the sealing cylinders and piston rods connected with one ends of the pistons. The other end of the piston rod in the first air compressing device 241 movably penetrates through one side of the sealing cylinder and the positioning plate 233 and then is connected with the contact disc 242; the other end of the piston rod in the second air compressing device 244 movably penetrates through one side of the sealing cylinder and then is connected with the top of the L-shaped pressing block 247, the mold main body 1 is pushed by the push plate 232 to gradually move towards the positioning plate 233 and to be contacted with the contact disc 242, meanwhile, the piston rod in the first air compressing device 241 drives the piston to move in the first sealing cylinder, at the moment, air in the sealing cylinder enters the sealing cylinder in the second air compressing device 244 through the air pipe 243, so that the piston in the sealing cylinder drives the piston rod, the L-shaped pressing block 247 downwards contacts the positioning block 21, and downward pressure is applied to the mold main body 1, so that the mold main body 1 is prevented from moving in the vertical direction when in use;

it should be noted that, as can be seen from fig. 3, one end of the air pipe 243 is communicated with the top of the sealing cylinder in the second air compressing device 244, the other end of the air pipe 243 is communicated with the outer end of the side wall of the sealing cylinder in the first air compressing device 241, and meanwhile, an elastic member is arranged on the outer wall of the piston rod, and the elastic member is a spring and is used for resetting the piston in the sealing cylinder in the subsequent process. A vent hole (not shown in the figure) is arranged on one side of the sealing cylinder, so that the piston can move in the sealing cylinder to ensure the balance of the air pressure inside and outside the sealing cylinder;

furthermore, two side walls of the L-shaped pressing block 247 are matched with the sliding blocks on the inner wall of the U-shaped frame 245 through the vertical sliding grooves, and initially, as shown in fig. 3, the sliding blocks are arranged at the bottom of the vertical sliding grooves, so that the L-shaped pressing block 247 can move under the action of the second air compressing device 244, and the inner wall of the top of the vertical sliding grooves is connected with the top of the sliding blocks through the elastic resetting piece 248 and is used for resetting the subsequent auxiliary L-shaped pressing block 247;

still optionally, the inner wall of the top of the vertical sliding chute is connected with one end of an elastic reset piece 248, the other end of the elastic reset piece 248 is connected with the top of the sliding block, and the elastic reset piece 248 is a spring and used for assisting the subsequent reset of the L-shaped pressing block 247.

In summary, the working principle of the mold detection and positioning integrated structure is as follows:

by manually rotating a hand wheel at one side of the driving rod 234, the two sets of stud pairs 236 are driven by the chain wheel transmission set 235 to synchronously drive the two sets of stud pairs 236 to synchronously rotate in the same direction, so that the positioning block 21 moves on the top of the supporting seat 22, namely, the installation position of the die body 1 is determined, the hand wheel at one end of the stud 231 is rotated to enable the push plate 232 to move on the top of the supporting seat 22, the push plate 232 contacts one side of the die body 1 and pushes the die body 1 to move on the top of the supporting seat 22, the other side of the die body 1 contacts the contact disc 242, and when the air compressor continues to move, the air in the sealing cylinder of the first air compressor 241 is pressed into the corresponding sealing cylinder of the second air compressor 244 through the air pipe 243, and then the second air compressor 244 presses the L-shaped pressing block 247 downwards, when the mold main body 1 is fitted to the positioning plate 233 side, the L-shaped presser 247 contacts the positioning block 21 and gives downward pressure thereto.

The foregoing description is only exemplary of the preferred embodiments of the application and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention herein disclosed is not limited to the particular combination of features described above, but also encompasses other arrangements formed by any combination of the above features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (7)

1. The utility model provides a mould detects location integral structure, includes mould main part (1), be provided with on mould main part (1) and detect locating component (2), its characterized in that: the detection positioning assembly (2) comprises: positioning blocks (21) detachably arranged at the bottoms of the front side and the rear side of the die main body (1);

a support seat (22) arranged at the bottom of the die main body (1) in a sliding manner;

and a detection positioning part (23) arranged at the top of the supporting seat (22);

wherein the detection positioning section (23) includes: the die comprises a push plate (232) which is arranged at the top of a supporting seat (22) in a sliding mode and is arranged on one side of a die main body (1) and a positioning plate (233) which is arranged at the top of the supporting seat (22) in a sliding mode and is arranged on the other side of the die main body (1), wherein a pressing part (24) is arranged on the positioning plate (233), and the detection positioning part (23) is used for positioning the die main body (1) and giving downward fixing force to the die main body (1) through the pressing part (24) during positioning.

2. The integrated structure for detecting and positioning the mold as claimed in claim 1, wherein: the bottom of the push plate (232) is in sliding connection with a T-shaped sliding groove I in the center of the top of the supporting seat (22) in a matched mode through a group of T-shaped sliding blocks I, a stud I (231) is arranged in the T-shaped sliding groove I in a rotating mode, the T-shaped sliding blocks are sleeved on the outer wall of the stud I (231) in a threaded mode, and the left end of the stud I (231) penetrates through the left side wall of the supporting seat (22) in a movable mode.

3. The integrated mold detection and positioning structure according to claim 2, wherein: the bottom of the positioning plate (233) is in sliding connection with a second T-shaped sliding groove at the top of the supporting seat (22) in a matched mode through a second two sets of T-shaped sliding blocks, the first T-shaped sliding groove is arranged on the inner side of the second T-shaped sliding groove, a second stud (236) is arranged in the second T-shaped sliding groove in a rotating mode, the outer wall of the second stud (236) is sleeved with the T-shaped sliding blocks in a threaded mode, the right end of the second stud (236) movably penetrates through the right side wall of the supporting seat (22), an auxiliary rod is arranged in the middle of the right side wall of the supporting seat (22) in a rotating mode, and the auxiliary rod and the second stud (236) are in transmission connection through a chain wheel transmission set (235).

4. The integrated structure for detecting and positioning the mold as claimed in claim 1, wherein: the press-fixing portion (24) includes:

two groups of first air compression devices (241) are respectively arranged at the two ends of the outer side of the positioning plate (233);

a support frame (246) arranged at the bottom of the front side and the rear side of the positioning plate (233);

a U-shaped frame (245) arranged at the other end of the supporting frame (246);

a second air pressing device (244) arranged at the top of the U-shaped frame (245) through a mounting frame;

and an L-shaped pressing block (247) which is arranged in the U-shaped frame (245) in a sliding way and is matched with the positioning block (21);

the inner cavities of the first air compressing device (241) and the second air compressing device (244) are communicated with each other through an air pipe (243), the first air compressing device (241) and the second air compressing device (244) are identical in structure and respectively comprise a sealing cylinder, a piston movably arranged in the sealing cylinder, a piston rod connected with one end of the piston, an elastic piece sleeved on the outer wall of the piston rod and an air vent arranged on one side of the sealing cylinder, and the L-shaped pressing block (247) is arranged on the outer side of the die body (1).

5. The integrated mold detection and positioning structure according to claim 4, wherein: the other end of a piston rod in the first air compressing device (241) movably penetrates through the sealing barrel and the positioning plate (233) and is connected with a contact disc (242), the other end of the piston rod in the second air compressing device (244) is connected with the top of the L-shaped pressing block (247), the contact disc (242) is pushed by the moving die body (1), and air in the sealing barrel in the first air compressing device (241) enters the sealing barrel in the second air compressing device (244) through an air pipe (243).

6. The integrated mold detection and positioning structure according to claim 4, wherein: the U-shaped frame (245) is in matched sliding connection with vertical sliding grooves in two side walls of the L-shaped pressing block (247) through sliding blocks on the inner walls of two sides, the inner wall of the top of the vertical sliding groove is connected with one end of an elastic resetting piece (248), and the other end of the elastic resetting piece (248) is connected with the top of the sliding block.

7. The integrated structure for detecting and positioning the mold as claimed in claim 1, wherein: the front side and the rear side of the bottom of the die main body (1) are respectively provided with a rectangular sliding block, and the top of the supporting seat (22) is provided with a sliding groove matched with the rectangular sliding blocks.

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