CN217515494U - Pushing device - Google Patents

Abstract

The utility model discloses an adjustable thrustor that pushes away position and angle, include: the device comprises a bottom support, wherein a Z axial sliding adjusting mechanism is arranged on the bottom support, a Y axial sliding adjusting mechanism is arranged on a Z axial sliding block in the Z axial sliding adjusting mechanism, an X axial sliding adjusting mechanism is arranged on a Y axial sliding block in the Y axial sliding adjusting mechanism, a cylinder support is arranged on an X axial sliding block in the X axial sliding adjusting mechanism, the cylinder support is adjustable in angle relative to the X axial sliding block, a pushing cylinder is arranged on the cylinder support, and a pushing part is arranged at the end part of a piston rod of the pushing cylinder. The pushing device can be widely used in various occasions needing to adjust the pushing position and angle.

Description

Pushing device

Technical Field

The utility model relates to a gloves packing trade, concretely relates to thrustor that is used for pushing away to take on packing carton in gloves packing process.

Background

In the glove packing industry, in the process of automatically packing gloves into a box, the lugs at two ends of the packing box need to be buckled, and during operation, the lugs at two sides need to be pushed towards the middle to enable the lugs to be close. Because the packing boxes have different specifications, and the positions and the angles of the pushing lugs are different for the packing boxes with different specifications, the design of the pushing device capable of adjusting the pushing positions and the pushing angles is urgent.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: provides a thrusting device capable of adjusting the thrusting position and angle.

In order to solve the technical problem, the utility model discloses a technical scheme does: a jacking device comprising: the bottom support is provided with Z endwise slip adjustment mechanism on the bottom support, and this Z endwise slip adjustment mechanism includes: the adjusting mechanism comprises an adjusting rod, a base, a cover plate and an end plate, wherein the upper end of the base is arranged on a bottom support, the cover plate is arranged on the base, the end plate is arranged at the lower end of the base, a through mounting groove is formed in the base, a Z-axis sliding block is movably arranged in the mounting groove, an axial adjusting threaded hole is formed in the Z-axis sliding block, one end of the adjusting rod is arranged in the adjusting threaded hole of the Z-axis sliding block through threads, the other end of the adjusting rod penetrates out of the end plate and is provided with an adjusting knob, limiting mechanisms are arranged on two sides of the end plate of the adjusting rod, a first mounting through hole corresponding to the Z-axis sliding block is formed in the bottom support, and the upper end of the Z-axis sliding block is movably arranged in the first mounting through hole; be provided with Y axial sliding adjustment mechanism on Z axial slider's the upper end, this Y axial sliding adjustment mechanism includes: the adjusting rod, one side of the bottom surface is arranged on a base on the upper end of the Z-axis sliding block, a cover plate is arranged on the base, and an end plate is arranged on one end of the base; be provided with X axial sliding adjustment mechanism on Y axial slider's the installation boss, this X axial sliding adjustment mechanism's concrete structure includes: the adjusting mechanism comprises an adjusting rod, a base, a cover plate and an end plate, wherein one side of the bottom surface of the adjusting rod is arranged on an installation boss of a Y-axis sliding block, the cover plate is arranged on the base, the end plate is arranged at one end of the base, a through installation groove is formed in the base, an X-axis sliding block is movably arranged in the installation groove, an axial adjusting threaded hole is formed in the X-axis sliding block, one end of the adjusting rod is arranged in the adjusting threaded hole of the X-axis sliding block through threads, the other end of the adjusting rod penetrates out of the end plate and is provided with an adjusting knob, limiting mechanisms are arranged on two sides of the end plate of the adjusting rod, an installation boss is arranged on the X-axis sliding block, a third installation through hole corresponding to the installation boss on the X-axis sliding block is formed in the cover plate, and the installation boss on the X-axis sliding block is movably arranged in the third installation through hole; an air cylinder support is arranged on the mounting boss on the X-axis sliding block, the angle of the air cylinder support relative to the X-axis sliding block is adjustable, a pushing air cylinder is arranged on the air cylinder support, and a pushing part is arranged at the end part of a piston rod of the pushing air cylinder.

Preferably, in the pushing device, the pushing portion is a combined cap nut disposed at an end of the piston rod.

As a preferred aspect, in said one thruster, said bottom support comprises: the bottom mounting plate is provided with at least two support mounting long holes which run up and down and are parallel to each other, the bottom supporting plate is provided with at least two base mounting long holes which are arranged along the length direction of the bottom supporting plate, two sides of the upper end of the base in the Z axial sliding adjusting mechanism are respectively provided with at least one pair of mounting threaded holes which correspond to the base mounting long holes in the bottom supporting plate, and a selected screw penetrates through the base mounting long holes in the bottom supporting plate from top to bottom and is arranged in the corresponding mounting threaded holes in the base in the Z axial sliding adjusting mechanism.

As a preferred scheme, in the pushing device, at least one rotation-stopping surface is arranged at the corresponding end of the adjusting rod, the adjusting knob is provided with a mounting hole matched with the corresponding end of the adjusting rod and a tightening threaded hole perpendicular to the rotation-stopping surface on the adjusting rod, the adjusting knob is sleeved on the adjusting rod through the mounting hole of the adjusting knob, a tightening screw is arranged in the tightening threaded hole, and the end part of the tightening screw is pressed on the rotation-stopping surface of the adjusting rod.

As a preferable scheme, in the pushing device, the adjusting knob is provided with scale marks along the circumferential direction.

As a preferable scheme, in the pushing apparatus, the limiting mechanism includes: the adjusting rod is provided with a limiting boss on the inner side of the end plate, an annular clamping groove corresponding to the clamping spring is formed in the outer side of the end plate, and the clamping spring is clamped in the annular clamping groove.

As a preferable scheme, in the pushing device, the limiting boss is an annular boss.

As a preferred scheme, in the pushing device, the specific installation manner of the cylinder support is as follows: an installation screw hole has been seted up on the installation boss of X axial slider, the cylinder support be L shape, its structure includes: the upper mounting plate is provided with a circular mounting through hole corresponding to a mounting threaded hole on a mounting boss of the X-axis slider, a selection screw penetrates through the circular mounting through hole on the upper mounting plate and is arranged in the mounting threaded hole on the X-axis slider, and the pushing cylinder is arranged on the upper supporting plate.

The utility model has the advantages that: the utility model adjusts the position of the pushing cylinder in all directions by the X, Y, Z axial sliding adjusting mechanism, and adjusts the angle of the pushing cylinder by the cylinder support, so that the adjustment of the pushing cylinder is very convenient; in addition, the mounting structure of the bottom mounting plate and the bottom supporting plate in the bottom support can further adjust the mounting position of the pushing cylinder, and further broadens the adjusting range of the pushing cylinder.

Drawings

Fig. 1 is a schematic structural view of the pushing device of the present invention.

Fig. 2 is a schematic view of a three-dimensional structure of the pushing device of the present invention.

Fig. 3 is a schematic perspective view of the second pushing device of the present invention.

Fig. 4 is a schematic view of a partial explosion structure of the pushing device of the present invention.

Fig. 5 is a second schematic view of the partial explosion structure of the pushing device of the present invention.

The reference numerals in fig. 1 to 5 are respectively: 1. a frame, 20, a bottom support, 201, a bottom support plate, 2011, a base mounting slot hole, 2012, a first mounting through hole, 202, a bottom mounting plate, 2021, a support mounting slot hole, 21, a Z axial sliding adjusting mechanism, 210, a base, 2101, a mounting threaded hole, 211, a cover plate, 212, an end plate, 2121, a mounting hole, 213, an adjusting rod, 2130, a threaded section, 2131, a non-threaded section, 2132, an annular limiting boss, 2133, a support section, 21331, an annular clamping groove, 2134, a rotation stopping surface, 214, a Z axial sliding block, 2141, an adjusting threaded hole, 2142, a mounting threaded hole, 2143, an avoidance gap, 215, a Z axial adjusting knob, 2151, a mounting hole, 216, a clamping spring, 22, a Y axial sliding adjusting mechanism, 220, a base, 221, a cover plate, 2211, a second mounting through hole, 222, an end plate 2221, a mounting hole, 223, an adjusting rod, 2231, a non-threaded section, 2232 and an annular limiting boss, 2233. the bearing section comprises 22331, an annular clamping groove, 224, a Y-axis sliding block, 2240, an installation boss, 2241, an adjustment threaded hole, 2243, an avoidance notch, 225, a Y-axis adjusting knob, 226, a clamp spring, 23, an X-axis sliding adjusting mechanism, 24, a pushing cylinder, 240, a cylinder support, 2401, an upper mounting plate, 2402, an upper supporting plate, 241 and a combined cap-shaped nut.

Detailed Description

An embodiment of a pushing assembly according to the present invention will be described in detail with reference to fig. 1 to 5.

As shown in fig. 1 to fig. 3, the pushing device of the present invention comprises: a bottom support 20, the bottom support 20 comprising: the bottom mounting plate 202 and the bottom supporting plate 201 are vertically connected, and the bottom supporting plate 201 is provided with a Z-axis sliding adjusting mechanism 21, as shown in fig. 4, the Z-axis sliding adjusting mechanism 21 includes: the adjusting device comprises an adjusting rod 213, a base 210 with an upper end arranged on the bottom support 20, a cover plate 211 arranged on the base 210, and an end plate 212 arranged on the lower end of the base 210, wherein a through mounting groove is formed in the base 210, a Z-axis sliding block 214 is movably arranged in the mounting groove, an axial adjusting threaded hole 2141 is formed in the Z-axis sliding block 214, a threaded section 2130 is arranged on the corresponding end of the adjusting rod 213, the threaded section 2130 is arranged in the adjusting threaded hole 2141 of the Z-axis sliding block 214, the other end of the adjusting rod 213 penetrates out of a mounting hole 2121 of the end plate 212 and is provided with a Z-axis adjusting knob 215, and the specific mounting mode of the Z-axis adjusting knob 215 is as follows: a pair of rotation stopping surfaces 2134 are arranged at the corresponding ends of the adjusting rod 213, a mounting hole 2151 matched with the corresponding end of the adjusting rod 213 and a tightening threaded hole (which belongs to the conventional technology in the field and is not described herein) perpendicular to the rotation stopping surfaces 2134 on the adjusting rod 213 are arranged on the Z-axis adjusting knob 215, the Z-axis adjusting knob 215 is sleeved on the adjusting rod 213 through the mounting hole 2151 thereof, a tightening screw is arranged in the tightening threaded hole, and the end part of the tightening screw abuts against the rotation stopping surfaces 2134 of the adjusting rod 213 (which belongs to the conventional technology in the field and is not described herein); the adjusting rod 213 is provided with a limiting mechanism on two sides of the end plate 212, and the limiting mechanism comprises: the adjusting rod 213 is provided with an annular limiting boss 2132 on the inner side of the end plate 212 and an annular clamping groove 21331 corresponding to the clamping spring 216 on the outer side of the end plate 212, and the clamping spring 216 is clamped in the annular clamping groove 21331; a pair of vertical and parallel long support mounting holes 2021 (the specific mounting structure of the long support mounting holes and the machine frame 1 will not be described herein), the bottom support plate 201 is provided with a first mounting through hole 2012 corresponding to the Z-axis slider 214, and a pair of base mounting long holes 2011 which are parallel to each other, located at two sides of the first mounting through hole 2012 and arranged along the length direction of the bottom support plate 201, the upper end of the Z-axis slider 214 is movably inserted into the first mounting through hole 2012, a pair of mounting threaded holes 2101 corresponding to the base mounting slotted holes 2011 on the bottom supporting plate 201 are respectively formed in two sides of the upper end of the base 210 in the Z-axial sliding adjusting mechanism, and selected screws penetrate through the base mounting slotted holes 2011 on the bottom supporting plate 201 from top to bottom and are arranged in the corresponding mounting threaded holes 2101 on the base 210 in the Z-axial sliding adjusting mechanism; the upper end of the Z-axis sliding block 214 is opened with a mounting threaded hole 2142 and is disposed on the Y-axis sliding adjusting mechanism 22 (which belongs to the conventional technology in the field and will not be described herein), as shown in fig. 5, the Y-axis sliding adjusting mechanism 22 includes: an adjusting rod 223, a base 220 with one side of the bottom surface arranged on the upper end of the Z-axis sliding block 214, a cover plate 221 arranged on the base 220, and an end plate 222 arranged on one end of the base 220, wherein a through mounting groove is formed on the base 220, a Y-axis sliding block 224 is movably arranged in the mounting groove, an axial adjusting threaded hole 2241 is formed in the Y-axis sliding block 224, one end of the adjusting rod 223 is arranged in the adjusting threaded hole 2241 of the Y-axis sliding block 224 through a thread, and the other end of the adjusting rod 223 penetrates out of the mounting hole 2221 of the end plate 222 and is provided with a Y-axis adjusting knob 225 (the installation mode is the same as that of the Z-axis adjusting knob 215, and the description is not repeated here); the adjusting lever 223 is provided with a limiting mechanism on both sides of the end plate 222, and the limiting mechanism includes: the adjusting rod 223 is provided with an annular limiting boss 2232 on the inner side of the end plate 222, an annular clamping groove 22331 corresponding to the clamping spring 226 is arranged on the outer side of the end plate 222, and the clamping spring 226 is clamped in the annular clamping groove 22331; the Y-axis sliding block 224 is provided with a mounting boss 2240, the cover plate 221 is provided with a second mounting through hole 2211 corresponding to the mounting boss 2240 on the Y-axis sliding block 224, and the mounting boss 2240 on the Y-axis sliding block 224 movably penetrates through the second mounting through hole 2211; be provided with X axial sliding adjustment mechanism 23 on Y axial slider 224's the installation boss 2240, X axial sliding adjustment mechanism 23's structure is the same with Y axial sliding adjustment mechanism 22, includes: one side of the bottom surface of the adjusting rod is arranged on a base on the mounting boss 2240 of the Y-axis sliding block 224, a cover plate is arranged on the base, and an end plate is arranged on one end of the base; be provided with cylinder support 240 on the installation boss on the X axial slider, this cylinder support 240 is L shape, and its structure includes: the upper portion mounting plate 2401 and the upper portion supporting plate 2402 are vertically connected, a mounting threaded hole is formed in a mounting boss of the X-axis slider (so that the angle of the cylinder support 240 relative to the X-axis slider is adjustable), a circular mounting through hole corresponding to the mounting threaded hole in the mounting boss of the X-axis slider is formed in the upper portion mounting plate 2401, a selected screw penetrates through the circular mounting through hole in the upper portion mounting plate 2401 and is arranged in the mounting threaded hole in the X-axis slider (which belongs to the conventional technology in the field and is not described herein), the pushing cylinder 24 is arranged on the upper portion supporting plate 2402 (which belongs to the conventional technology in the field and is not described herein), and a combined type cap nut 241 is arranged at an end of a piston rod of the pushing cylinder 24 to serve as a pushing portion.

During the practical application, Z axial adjust knob 215, Y axial adjust knob 225 and X axial adjust knob on all be provided with the scale mark for adjust more directly perceived. A non-threaded section 2131 is further arranged on the adjusting rod 213 in the Z-axial sliding adjusting mechanism 21, and corresponds to the non-threaded section 2131, an avoiding notch 2143 corresponding to the non-threaded section 2131 is formed on the Z-axial sliding block 214, a supporting section 2133 matched with the mounting hole 2121 on the end plate 212 is further arranged on the adjusting rod 213 in the Z-axial sliding adjusting mechanism 21, and the annular clamping groove 21331 is formed on the supporting section 2133 of the adjusting rod 213; a thread-free section 2231 is further arranged on the adjusting rod 223 of the Y axial sliding adjusting mechanism 22, and correspondingly, an avoiding notch 2243 corresponding to the thread-free section 2231 is formed on the Y axial sliding block 224, a supporting section 2233 matched with the mounting hole 2221 of the end plate 222 is further arranged on the adjusting rod 223 of the Y axial sliding adjusting mechanism 22, and the annular clamping groove 22331 is formed on the supporting section 2233 of the adjusting rod 223; the adjusting rod in the X axial sliding adjusting mechanism 23 is also provided with a thread-free section, and correspondingly, the X axial sliding block is provided with a corresponding avoiding opening, the adjusting rod in the X axial sliding adjusting mechanism 23 is also provided with a supporting section, and the annular clamping groove is arranged on the supporting section of the adjusting rod (see the adjusting rod 223 in the Y axial sliding adjusting mechanism 22).

In summary, the present invention is only a preferred embodiment, and is not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the shapes, structures, features and spirit of the claims of the present invention should be included in the scope of the claims of the present invention.

Claims (8)

1. A jacking device comprising: bottom support, its characterized in that, the bottom support on be provided with Z axial sliding adjustment mechanism, this Z axial sliding adjustment mechanism includes: the adjusting mechanism comprises an adjusting rod, a base, a cover plate and an end plate, wherein the upper end of the base is arranged on a bottom support, the cover plate is arranged on the base, the end plate is arranged at the lower end of the base, a through mounting groove is formed in the base, a Z-axis sliding block is movably arranged in the mounting groove, an axial adjusting threaded hole is formed in the Z-axis sliding block, one end of the adjusting rod is arranged in the adjusting threaded hole of the Z-axis sliding block through threads, the other end of the adjusting rod penetrates out of the end plate and is provided with an adjusting knob, limiting mechanisms are arranged on two sides of the end plate of the adjusting rod, a first mounting through hole corresponding to the Z-axis sliding block is formed in the bottom support, and the upper end of the Z-axis sliding block is movably arranged in the first mounting through hole; be provided with Y axial sliding adjustment mechanism on Z axial slider's the upper end, this Y axial sliding adjustment mechanism includes: the adjusting rod, one side of the bottom surface is arranged on a base on the upper end of the Z-axis sliding block, a cover plate is arranged on the base, and an end plate is arranged on one end of the base; be provided with X axial sliding adjustment mechanism on Y axial slider's the installation boss, this X axial sliding adjustment mechanism's concrete structure includes: the adjusting mechanism comprises an adjusting rod, a base, a cover plate and an end plate, wherein one side of the bottom surface of the adjusting rod is arranged on an installation boss of a Y-axis sliding block, the cover plate is arranged on the base, the end plate is arranged at one end of the base, a through installation groove is formed in the base, an X-axis sliding block is movably arranged in the installation groove, an axial adjusting threaded hole is formed in the X-axis sliding block, one end of the adjusting rod is arranged in the adjusting threaded hole of the X-axis sliding block through threads, the other end of the adjusting rod penetrates out of the end plate and is provided with an adjusting knob, limiting mechanisms are arranged on two sides of the end plate of the adjusting rod, an installation boss is arranged on the X-axis sliding block, a third installation through hole corresponding to the installation boss on the X-axis sliding block is formed in the cover plate, and the installation boss on the X-axis sliding block is movably arranged in the third installation through hole; an air cylinder support is arranged on the mounting boss on the X-axis sliding block, the angle of the air cylinder support relative to the X-axis sliding block is adjustable, a pushing air cylinder is arranged on the air cylinder support, and a pushing part is arranged at the end part of a piston rod of the pushing air cylinder.

2. The incremental launching device as described in claim 1, wherein said incremental launching section is a combination cap nut disposed on the end of the piston rod.

3. The thrustor of claim 1 wherein said bottom support comprises: the Z-axial sliding adjusting mechanism comprises a bottom mounting plate and a bottom supporting plate which are vertically connected, wherein the bottom mounting plate is provided with at least two support mounting long holes which run up and down and are parallel to each other, the bottom supporting plate is provided with at least two base mounting long holes which are arranged along the length direction of the bottom supporting plate, two sides of the upper end of a base in the Z-axial sliding adjusting mechanism are respectively provided with at least one pair of mounting threaded holes corresponding to the base mounting long holes in the bottom supporting plate, and a selected screw penetrates through the base mounting long holes in the bottom supporting plate from top to bottom and is arranged in the corresponding mounting threaded hole in the base in the Z-axial sliding adjusting mechanism.

4. The pushing device as claimed in claim 1, wherein the adjusting lever has at least one rotation-stopping surface at a corresponding end thereof, the adjusting knob has a mounting hole matching with the corresponding end of the adjusting lever and a tightening screw hole perpendicular to the rotation-stopping surface of the adjusting lever, the adjusting knob is sleeved on the adjusting lever through the mounting hole thereof, the tightening screw hole has a tightening screw therein, and an end of the tightening screw abuts against the rotation-stopping surface of the adjusting lever.

5. The incremental launching device as recited in claim 1, wherein said adjustment knob is circumferentially provided with graduations.

6. A pushing apparatus as in claim 1, wherein said limiting means comprises: the adjusting rod is provided with a limiting boss on the inner side of the end plate, an annular clamping groove corresponding to the clamping spring is formed in the outer side of the end plate, and the clamping spring is clamped in the annular clamping groove.

7. The incremental launching device as recited in claim 6, wherein said limiting projection is an annular projection.

8. The thrustor according to any one of the claims 1 to 7, wherein the cylinder support is mounted in a manner such that: an installation screw hole has been seted up on the installation boss of X axial slider, the cylinder support be L shape, its structure includes: the upper mounting plate is provided with a circular mounting through hole corresponding to a mounting threaded hole on a mounting boss of the X-axis slider, a selection screw penetrates through the circular mounting through hole on the upper mounting plate and is arranged in the mounting threaded hole on the X-axis slider, and the pushing cylinder is arranged on the upper supporting plate.

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