CN221065151U - Hydraulic jacketing machine for manufacturing fuse - Google Patents

Abstract

The utility model provides a hydraulic jacketing machine for manufacturing a fuse, which belongs to the technical field of fuse production and comprises a base and a first supporting block arranged on the base, wherein a positioning plate is further arranged on the base, the positioning plate is of an L-shaped structure, a telescopic assembly is arranged on the positioning plate in an inverted mode, the telescopic assembly comprises a bottom plate, a second supporting block is arranged at the bottom of the bottom plate, fixing pieces are arranged on the first supporting block and the second supporting block through connecting mechanisms, and a pushing mechanism is further arranged on the base corresponding to the two fixing pieces; the utility model can assemble fuses with different sizes and lengths.

Description

Hydraulic jacketing machine for manufacturing fuse

Technical Field

The utility model relates to the technical field of fuse production equipment, in particular to a hydraulic jacketing machine for fuse manufacture.

Background

A fuse is a protection device, and when the current exceeds a specified value, a fuse body in the fuse is fused to break the circuit.

The hydraulic jacketing machine for manufacturing the charging pile fuse is disclosed in the publication No. CN219132170U, the device can fix two fixing parts of the fuse through two casing strings, and then the sleeve is hydraulically pushed to the outside of the head so as to complete the assembly of the fuse; and can also be assembled to fuses of other length and size by adjusting the spacing between two casing strings through the threaded rod.

The distance between two casing strings can be adjusted by the device, but the mode of adjusting the height of the casing string is realized by rotating the casing string at the end part of the threaded rod, when the casing string rotates 90 DEG on the threaded rod in the adjusting mode, the limiting grooves on the two casing strings are perpendicular to each other, and the fuse assembly cannot be placed between the two limiting grooves at the moment, so that the fuse fixing part can be positioned only when the casing string rotates 180 DEG, namely, the fuse with specified lengths of several models can be fixed, and the applicability is low.

Disclosure of utility model

In view of the above, the present utility model provides a hydraulic bushing apparatus for manufacturing fuses, which can perform assembly work for fuses of different sizes and lengths.

In order to solve the technical problems, the utility model provides a hydraulic jacketing machine for manufacturing fuses, which comprises a base and a first supporting block arranged on the base, wherein the first supporting block is vertically arranged on the base, a positioning plate is further arranged on the base, the positioning plate is of an L-shaped structure, the first supporting block is positioned right below the positioning plate, a telescopic assembly is arranged on the positioning plate in an inverted mode, the telescopic assembly comprises a bottom plate, the bottom plate can move up and down below the positioning plate, a second supporting block is arranged at the bottom of the bottom plate, the bottom plate can drive the second supporting block to move up and down, fixing pieces are arranged on the first supporting block and the second supporting block through connecting mechanisms, the fixing pieces are fixed on the first supporting block or the second supporting block through the connecting mechanisms, a pushing mechanism is further arranged on the base corresponding to the two fixing pieces, and a sleeve of each fuse is placed on the pushing mechanism.

The telescopic assembly comprises a plurality of telescopic rods arranged at the bottom of the positioning plate, the telescopic rods are vertically arranged at the bottom of the positioning plate, and bottom plates are arranged at the ends of the telescopic rods; i.e. a plurality of telescopic rods can provide guidance for the base plate.

The fixing piece comprises a fixing block, a positioning groove is formed in the fixing block corresponding to the fuse fixing part, the positioning groove is matched with the fuse fixing part, and a fixing hole is formed in the fixing block corresponding to the positioning groove; i.e. the fixing hole is communicated with the positioning groove.

The connecting mechanism comprises a groove arranged at the end part of the fixed block, the groove is arranged at the end part of the fixed block in a penetrating way, the corresponding groove is provided with a convex block at the end parts of the first supporting block and the second supporting block, the convex block is matched with the groove, and a plurality of threaded holes are formed at the two ends of the convex block and the groove on the fixed block; namely, the convex blocks and the groove parts of the fixed blocks can be connected together through bolts.

The pushing tube mechanism comprises a cavity arranged in the base, a hydraulic push rod is arranged in the cavity, the hydraulic push rod is vertically arranged in the cavity, two guide holes are formed in the base corresponding to the hydraulic push rod, the two guide holes are communicated with the cavity, guide rods are arranged in the guide holes in a sliding mode, the guide rods can slide up and down in the guide holes, movable plates are arranged at the end parts of the two guide rods, the movable plates are positioned in the cavity, the bottom of each movable plate is connected with the top of the corresponding hydraulic push rod, the hydraulic push rod can push the corresponding movable plate to lift, and movable rings are arranged at the other ends of the two guide rods; namely, the guide rod can drive the movable plate to lift.

The movable ring is provided with a clamping groove, the clamping groove is arranged on the upper surface of the movable ring, and a supporting piece is arranged corresponding to the clamping groove; i.e. the support can limit the sleeve.

The supporting piece comprises a clamping ring, the clamping ring can be inserted into the clamping groove, a push plate is arranged on the clamping ring, the push plate is of an annular structure, and a guide ring is arranged on the push plate; i.e. the guide ring is able to provide guidance for the cannula.

In summary, compared with the prior art, the application has at least one of the following beneficial technical effects:

1. The second supporting block can move up and down above the first supporting block through the telescopic component, so that the distance between the two fixing pieces can be adjusted at will, and fuse components with different lengths can be positioned.

2. The fixing piece is fixed on the first supporting block or the second supporting block through the connecting mechanism, namely, the fixing piece can be detached and replaced through the connecting mechanism, so that fuses of different types can be adapted.

3. The support piece on the movable ring can be replaced, so that the movable ring can push the sleeves with different diameters, and the sleeves cannot topple or deflect in the moving process.

Drawings

FIG. 1 is a schematic view of a hydraulic jacketing machine for manufacturing fuses according to the present utility model;

FIG. 2 is a schematic diagram of the structure of FIG. 1A according to the present utility model;

FIG. 3 is a schematic diagram of the structure of FIG. 2B according to the present utility model;

FIG. 4 is a schematic view of a base section of the present utility model;

Fig. 5 is a schematic structural view of the support member of the present utility model.

Reference numerals illustrate:

100. A base; 101. a first support block; 102. a positioning plate; 103. a second support block;

200. A telescoping assembly; 201. a telescopic rod; 202. a bottom plate;

300. a tube pushing mechanism; 301. a chamber; 302. a hydraulic push rod; 303. a guide hole; 304. a guide rod; 305. a movable plate; 306. a movable ring; 307. a clamping groove;

400. a fixing member; 401. a fixed block; 402. a positioning groove; 403. a fixing hole;

500. a connecting mechanism; 501. a groove; 502. a bump; 503. a threaded hole;

600. A support; 601. a clasp; 602. a push plate; 603. a guide ring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 5 of the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the utility model, fall within the scope of protection of the utility model.

As shown in fig. 1-5: the embodiment provides a hydraulic jacketing machine for manufacturing fuses, which comprises a base 100 and a first supporting block 101 arranged on the base 100 through a bearing, wherein the first supporting block 101 is vertically arranged on the base 100, a positioning plate 102 is arranged on the base 100 corresponding to the first supporting block 101, the cross section of the positioning plate 102 is of an L-shaped structure, a telescopic assembly 200 is arranged at the bottom of the positioning plate 102, the telescopic assembly 200 comprises a bottom plate 202, a second supporting block 103 is arranged at the bottom of the bottom plate 202, fixing pieces 400 are arranged at the bottom of the second supporting block 103 and the top of the first supporting block 101 through connecting mechanisms, the two fixing pieces 400 are arranged in an up-down parallel manner, and the fixing pieces 400 can position fixing parts at the end parts of fuse assemblies, so that the two fixing pieces 400 can fix the fuse assemblies;

The fuse is assembled to fix the fixing part on the fuse assembly on the fixing part 400 on the first supporting block 101, and then the second supporting block 103 is pulled to slide up and down above the first supporting block 101 through the telescopic assembly 200, namely, the fixing part 400 at the bottom of the second supporting block 103 is moved to the fixing part on the top end of the fuse assembly and is fixed, so that the sleeve can be pushed onto the fuse assembly through the push tube mechanism 300.

The telescoping assembly 200 is shown in figure 1,

The telescopic assembly 200 comprises a plurality of telescopic rods 201 arranged at the bottom of the positioning plate 102, the telescopic rods 201 are vertically arranged at the bottom of the positioning plate 102, and bottom plates 202 are arranged at the end parts of the telescopic rods 201; that is, the plurality of telescopic rods 201 can provide guide and support for the base plate 202, and the base plate 202 can be moved up and down above the first support block 101 by the plurality of telescopic rods 201.

The fixing member 400 is shown in figure 3,

The fixing piece 400 comprises a fixing block 401, a positioning groove 402 is formed in the fixing block 401 corresponding to the fuse fixing part, the positioning groove 402 is formed in the fixing block 401 in a penetrating mode, the fixing part of the fuse assembly can be inserted into the positioning groove 402 to slide left and right in the positioning groove 402, and a fixing hole 403 is formed in the fixing block 401 corresponding to the positioning groove 402; the fixing hole 403 is arranged on the fixing block 401 in a penetrating way and is communicated with the positioning groove 402, the fixing hole 403 is vertically arranged with the positioning groove 402, namely, after the fixing part on the fuse assembly is inserted into the positioning groove 402, the fixing part at the end part of the short-term assembly can be positioned by inserting the bolt or the pin body into the fixing hole 403 and the through hole on the fixing part.

The connection mechanism 500 is shown in figure 3,

The connection mechanism 500 comprises a groove 501 arranged at the end part of the fixed block 401, the groove 501 is arranged on one surface of the fixed block 401 in a penetrating way, a bump 502 is arranged at the end parts of the first support block 101 and the second support block 103 corresponding to the groove 501, the bump 502 is matched with the groove 501, the bump 502 can slide in the groove 501, and a plurality of threaded holes 503 are arranged at the two ends of the bump 502 and the groove 501 on the fixed block 401; the bump 502 is provided with a plurality of threaded holes 503 in a penetrating way, the threaded holes 503 corresponding to the bump 502 are also provided with a plurality of threaded holes 503 on the fixed block 401, the threaded holes 503 are communicated with the groove 501, namely, the fixed piece 400 can be fixed on the first support block 101 or the second support block 103 by inserting bolts into the threaded holes 503; that is, the fixing member 400 can be removed from the first support block 101 or the second support block 103 by the connection mechanism, so that the fixing member 400 can be replaced, and the device can position fuse assemblies of different models.

The push tube mechanism 300 is shown in figure 4,

The push tube mechanism 300 comprises a cavity 301 arranged in the base 100, a hydraulic push rod 302 is vertically arranged in the cavity 301, a movable plate 305 is transversely arranged on a piston rod of the hydraulic push rod 302, two guide rods 304 are vertically arranged on the upper surface of the movable plate 305, guide holes 303 are vertically arranged on the base 100 corresponding to the two guide rods 304, the guide holes 303 are communicated with the cavity 301, the guide rods 304 can slide up and down in the guide holes 303, movable rings 306 are further arranged at one ends of the two guide rods 304 far away from the movable plate 305, and the inner ring of each movable ring 306 is slightly larger than the cross section of the first support rod;

Namely, the sleeve is placed on the movable ring 306, then when the pipe pushing mechanism 300 is controlled to work, the hydraulic push rod 302 can push the movable plate 305 to move upwards, the movable plate 305 can drive the two guide rods 304 to move upwards, the two guide rods 304 can drive the movable ring 306 to move upwards, the movable ring 306 can push the sleeve to move upwards, and the sleeve can be assembled on the fuse assembly.

The support 600 is shown in figure 5 of the drawings,

The movable ring 306 is provided with a clamping groove 307, the clamping groove 307 is in an annular structure, and the supporting piece 600 is arranged corresponding to the clamping groove 307 on the upper surface of the movable ring 306; the support 600 is placed in the clamping groove 307 and can limit the sleeve, i.e., the support 600 is placed on the movable ring 306, and then the sleeve is placed on the movable ring 306 in alignment with the support 600, so that the support 600 can provide support and limit to the sleeve when the movable ring 306 pushes the sleeve upward, preventing the sleeve from tilting.

The support 600 includes snap ring 601, and snap ring 601 and draw-in groove 307 looks adaptation promptly in snap ring 601 can prevent to advance draw-in groove 307, set up push pedal 602 on the snap ring 601, set up guide ring 603 on the push pedal 602, guide ring 603's internal diameter and sheathed tube external diameter looks adaptation promptly, guide ring 603 can carry out spacing and direction to the sleeve pipe to can change the support 600 on the expansion ring 306 when changing different fuse models and continue to use.

Furthermore, it should be noted that, in the description of the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art according to the specific circumstances.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present utility model, and such modifications and adaptations are intended to be comprehended within the scope of the present utility model.

Claims (7)

1. The utility model provides a hydraulic sleeve machine for fuse manufacturing which characterized in that: including base (100) and first supporting shoe (101) that set up on base (100), still set up locating plate (102) on base (100), locating plate (102) are L shape structure, handstand on locating plate (102) sets up telescopic assembly (200), telescopic assembly (200) include bottom plate (202), bottom plate (202) bottom sets up second supporting shoe (103), all be equipped with mounting (400) on first supporting shoe (101) and second supporting shoe (103) through coupling mechanism, still be equipped with push away tub mechanism (300) on base (100) corresponding two mounting (400).

2. A hydraulic bushing for fuse manufacture according to claim 1, wherein: the telescopic assembly (200) comprises a plurality of telescopic rods (201) arranged at the bottom of the positioning plate (102), and bottom plates (202) are arranged at the ends of the telescopic rods (201).

3. A hydraulic bushing for fuse manufacture according to claim 2, wherein: the fixing piece (400) comprises a fixing block (401), a positioning groove (402) is formed in the fixing block (401) corresponding to the fuse fixing portion, and a fixing hole (403) is formed in the fixing block (401) corresponding to the positioning groove (402).

4. A hydraulic bushing for fuse manufacture of claim 3, wherein: the connecting mechanism (500) comprises a groove (501) arranged at the end part of the fixed block (401), a lug (502) is arranged at the end parts of the first supporting block (101) and the second supporting block (103) corresponding to the groove (501), and a plurality of threaded holes (503) are formed in the lug (502) and the two ends of the groove (501) on the fixed block (401).

5. A hydraulic bushing for fuse manufacture of claim 4, wherein: the push tube mechanism (300) comprises a cavity (301) arranged in the base (100), a hydraulic push rod (302) is arranged in the cavity (301), two guide holes (303) are formed in the base (100) corresponding to the hydraulic push rod (302), guide rods (304) are arranged in the guide holes (303) in a sliding mode, movable plates (305) are arranged at the end portions of the guide rods (304), the bottoms of the movable plates (305) are connected with the tops of the hydraulic push rods (302), and movable rings (306) are arranged at the other ends of the two guide rods (304).

6. A hydraulic bushing apparatus for fuse manufacture of claim 5, wherein: the movable ring (306) is provided with a clamping groove (307), and a supporting piece (600) is arranged corresponding to the clamping groove (307).

7. A hydraulic bushing for fuse manufacture of claim 6, wherein: the support piece (600) comprises a clamping ring (601), a push plate (602) is arranged on the clamping ring (601), and a guide ring (603) is arranged on the push plate (602).