CN215177635U - Equipment capable of realizing low-cost batch height and size measurement - Google Patents

Abstract

The utility model belongs to the technical field of height measurement equipment, concretely relates to can realize low-cost mass measurement height and size's equipment. The utility model discloses a: a body; a gantry; a measurement base; a probe assembly; the Y-direction moving mechanism is arranged on the machine body table-board and is connected with the measuring base; the Z-direction moving mechanism is arranged above the measuring base and connected with the measuring head component; the X-direction moving mechanism is arranged on the portal frame and is connected with the Z-direction moving mechanism. The utility model drives the measuring base to move and adjust the position of the measuring base on the machine body table-board through the Y-direction moving mechanism; the X-direction moving mechanism drives the Z-direction moving mechanism to move on the portal frame to adjust the Z-direction moving mechanism to be positioned under the measuring head component; the measuring head component is driven to move by the Z-direction moving mechanism to realize the positions of the measuring head component and the measuring base; the change is measured base and gauge head subassembly and is realized general measurement, can realize quick, the mass measurement product less with the cost, is applicable to the mass production demand.

Description

Equipment capable of realizing low-cost batch height and size measurement

Technical Field

The utility model belongs to the technical field of height measurement equipment, concretely relates to can realize low-cost mass measurement height and size's equipment.

Background

For the height dimension measurement of precision products, the mode that currently commonly uses is three-coordinate measuring equipment measurement, uses height gauge measurement manually, or uses VR equipment to carry out 3D measurement. Some of the measuring modes have high machine cost, some have high labor cost and low measuring speed, and are not suitable for the requirement of batch production.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can realize low-cost mass measurement altitude size's equipment, solve in the past to measure altitude size's equipment cost height, be not suitable for batch production's technical problem.

In order to solve the technical problem, the utility model provides a can realize low-cost mass measurement height and size's equipment, include:

a body;

the portal frame is erected on the table top of the machine body;

the measuring base is arranged on the table top of the machine body and is suitable for placing a plurality of products to be measured in batches;

the measuring head assembly is arranged above the measuring base and is suitable for measuring the height size of the product to be measured in batches;

the Y-direction moving mechanism is arranged on a table top of the machine body at the position below the portal frame and is connected with the measuring base so as to drive the measuring base to reciprocate on the table top of the machine body along the Y direction;

the Z-direction moving mechanism is arranged above the measuring base and connected with the measuring head component so as to drive the measuring head component to move back and forth along the Z direction and realize that the measuring head component is contacted with or far away from the measuring base;

and the X-direction moving mechanism is arranged on the portal frame and is connected with the Z-direction moving mechanism so as to drive the Z-direction moving mechanism to reciprocate on the portal frame along the X direction.

Furthermore, the Y-direction moving mechanism comprises a Y-direction pushing cylinder, a pair of Y-direction sliding rails, a Y-direction sliding rod, a Y-direction sliding table, at least one pair of Y-direction pulleys and a Y-direction sliding rod seat; wherein

The pair of Y-direction sliding rails is fixedly arranged on the table top of the machine body along the Y direction;

each Y-direction pulley is arranged on a corresponding Y-direction slide rail in a sliding manner;

the Y-direction sliding tables are fixedly arranged at the upper ends of the Y-direction pulleys, and the Y-direction sliding rod seats are fixedly arranged on the bottom surfaces of the Y-direction sliding tables;

the measuring base is arranged on the top surface of the Y-direction sliding table;

the Y-direction sliding rod is fixedly arranged on the Y-direction sliding rod seat and is connected with the Y-direction pushing cylinder;

the Y-direction pushing cylinder is arranged on the table top of the machine body and is suitable for pushing the Y-direction sliding rod to reciprocate along the Y direction, so that the Y-direction sliding rod pushes the Y-direction sliding rod seat to reciprocate, and the Y-direction sliding table drives the measuring base to reciprocate on the corresponding Y-direction sliding rail through the Y-direction pulleys.

Further, Y-direction slide rail seats are erected at two ends of the pair of Y-direction slide rails;

the Y-direction sliding rod seat is positioned between the two Y-direction sliding rail seats, and the Y-direction sliding rod penetrates through the two Y-direction sliding rail seats in a sliding mode.

Furthermore, a Y-direction guide rail shield is erected on the pair of Y-direction slide rails;

one end of the Y-direction guide rail shield is connected with a Y-direction slide rail seat far away from the Y-direction pushing cylinder, and the other end of the Y-direction guide rail shield is connected with each Y-direction slide vehicle.

Furthermore, the X-direction moving mechanism comprises an X-direction pushing cylinder, a pair of X-direction sliding rails, an X-direction sliding rod, an X-direction sliding table, at least one pair of X-direction pulleys and an X-direction sliding rod seat; wherein

The pair of X-direction sliding rails are fixedly arranged on the portal frame along the X direction;

each X-direction pulley is arranged on a corresponding X-direction slide rail in a sliding manner;

the X-direction sliding tables are fixedly arranged at the upper ends of the X-direction pulleys, and the X-direction sliding rod seats are fixedly arranged on the bottom surfaces of the X-direction sliding tables;

the Z-direction moving mechanism is arranged on the top surface of the X-direction sliding table;

the X-direction sliding rod is fixedly arranged on the X-direction sliding rod seat and is connected with the X-direction pushing cylinder;

the X-direction pushing cylinder is arranged on the portal frame and is suitable for pushing the X-direction sliding rod to reciprocate along the X direction, so that the X-direction sliding rod pushes the X-direction sliding rod seat to reciprocate, and the X-direction sliding table drives the Z-direction moving mechanism to reciprocate on the corresponding X-direction sliding rail through the X-direction pulleys.

Further, the Z-direction moving mechanism comprises a Z-direction pushing cylinder, a pair of Z-direction sliding rails, a Z-direction sliding table, at least one pair of Z-direction pulleys and a measuring head mounting base; wherein

The pair of Z-direction sliding rails are fixedly arranged on the X-direction sliding table along the Z direction;

each Z-direction pulley is arranged on a pair of Z-direction slide rails in a sliding manner;

the Z-direction sliding table is fixedly arranged at the upper end of each Z-direction pulley;

the measuring head mounting base is fixedly arranged on the Z-direction sliding table and is suitable for mounting a measuring head assembly;

the Z-direction pushing cylinder is fixedly arranged on the X-direction sliding table and is suitable for pushing the Z-direction sliding table to reciprocate on the Z-direction sliding rail through the Z-direction pulley, and the measuring head mounting base drives the measuring head assembly to contact or keep away from the measuring base.

Furthermore, a locking block is arranged on the Z-direction sliding table, and the measuring head assembly is arranged on the locking block in a penetrating mode.

Furthermore, a marking mechanism capable of moving along the Z direction is arranged on the X-direction moving mechanism and is suitable for marking NG products.

Further, the marking mechanism comprises a pressing cylinder, a push rod, a fixing block, a pressing block and a marking pen; wherein

The upper end of the push rod is connected with the lower pressing cylinder, and the lower end of the push rod is connected with the fixed block;

the marking pen is arranged on the fixed block through the pressing block and is suitable for marking NG products;

the push-down cylinder is fixedly arranged on the X-direction sliding table and is suitable for pushing the push rod to reciprocate along the Z direction, so that the fixed block and the pressing block can drive the marking pen to contact or be far away from the measuring base.

Further, the lower end of the lower air cylinder is provided with a measuring head sliding rod seat, and a piston rod of the lower air cylinder penetrates through the measuring head sliding rod seat to be connected with the push rod;

and measuring head sliding rods are arranged at two ends of the fixing block, and the upper ends of the measuring head sliding rods are respectively arranged at the corresponding end parts of the measuring head sliding rod seats in a penetrating manner.

The utility model has the advantages that the utility model can realize the low-cost mass height and size measurement, the Y-direction moving mechanism drives the measuring base to move on the table-board of the machine body in a reciprocating way along the Y direction, and the position of the measuring base on the table-board of the machine body is adjusted, so that the measuring base is positioned under the X-direction moving mechanism; the X-direction moving mechanism drives the Z-direction moving mechanism to reciprocate on the portal frame along the X direction, and the Z-direction moving mechanism is adjusted to be positioned under the measuring head component; the measuring head component is driven by the Z-direction moving mechanism to move back and forth along the Z direction, so that the measuring head component is contacted with or away from the measuring base; realize general measurement through change measurement base and gauge head subassembly, can use less cost to realize quick, the mass measurement product, be applicable to the demand of present mass production.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a perspective view of a preferred embodiment of the apparatus of the present invention that allows for low-cost mass measurement of height dimensions;

FIG. 2 is a schematic structural diagram of a preferred embodiment of the apparatus (part of the machine body parts are omitted) for measuring height dimensions in batch at low cost according to the present invention;

fig. 3 is a schematic structural view of a preferred embodiment of the Y-direction moving mechanism of the present invention;

fig. 4 is a schematic structural view of a preferred embodiment of the Y-direction moving mechanism (with a Y-direction rail seat and a Y-direction rail guard attached) of the present invention;

fig. 5 is a schematic structural view of a preferred embodiment of the X-direction moving mechanism of the present invention;

fig. 6 is a schematic structural view of a preferred embodiment of the X-direction moving mechanism and the marking mechanism of the present invention.

In the figure:

the device comprises a machine body 1, a portal frame 2, a measuring base 3 and a measuring head component 4;

a Y-direction moving mechanism 5, a Y-direction pushing cylinder 51, a Y-direction slide rail 52, a Y-direction slide bar 53, a Y-direction slide table 54, a Y-direction block 55, a Y-direction slide bar base 56, a Y-direction slide rail base 57, and a Y-direction guide rail cover 58;

a Z-direction moving mechanism 6, a Z-direction pushing cylinder 61, a Z-direction slide rail 62, a Z-direction sliding table 63, a Z-direction pulley 64, a measuring head mounting base 65 and a locking block 66;

an X-direction moving mechanism 7, an X-direction pushing cylinder 71, an X-direction slide rail 72, an X-direction slide bar 73, an X-direction slide table 74, an X-direction block 75, an X-direction slide rail base 76, and an X-direction guide rail guard 77;

the marking mechanism 8, a pressing cylinder 81, a push rod 82, a fixed block 83, a pressing block 84, a marking pen 85, a measuring head slide rod seat 86 and a measuring head slide rod 87.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

As shown in fig. 1 and 2, the apparatus for measuring height dimensions in batch at low cost according to the present embodiment includes: the device comprises a machine body 1, a portal frame 2, a measuring base 3, a measuring head component 4, a Y-direction moving mechanism 5, a Z-direction moving mechanism 6 and an X-direction moving mechanism 7; wherein, the portal frame 2 is erected on the table-board of the machine body 1; the measuring base 3 is arranged on the table top of the machine body 1 and is suitable for placing a plurality of products to be measured in batches; the measuring head component 4 is arranged above the measuring base 3 and is suitable for measuring the height size of the product to be measured in batches; the Y-direction moving mechanism 5 is arranged on the table top of the machine body 1 at the position below the portal frame 2 and is connected with the measuring base 3 so as to drive the measuring base 3 to reciprocate on the table top of the machine body 1 along the Y direction; the Z-direction moving mechanism 6 is arranged above the measuring base 3 and connected with the measuring head component 4 to drive the measuring head component 4 to move in a reciprocating manner along the Z direction, so that the measuring head component 4 is contacted with or far away from the measuring base 3; the X-direction moving mechanism 7 is arranged on the portal frame 2 and connected with the Z-direction moving mechanism 6 so as to drive the Z-direction moving mechanism 6 to reciprocate on the portal frame 2 along the X direction. The Y-direction moving mechanism 5 drives the measuring base 3 to reciprocate on the table top of the machine body 1 along the Y direction, and the position of the measuring base 3 on the table top of the machine body 1 is adjusted, so that the measuring base 3 is positioned right below the X-direction moving mechanism 7; the Z-direction moving mechanism 6 is driven by the X-direction moving mechanism 7 to reciprocate on the portal frame 2 along the X direction, and the Z-direction moving mechanism 6 is adjusted to be positioned under the measuring head component 4; the measuring head component 4 is driven to reciprocate along the Z direction by the Z-direction moving mechanism 6, so that the measuring head component 4 is contacted with or far away from the measuring base 3; realize general measurement through change measurement base 3 and gauge head subassembly 4, can use less cost to realize quick, the mass measurement product, be applicable to the demand of present batch production.

As shown in fig. 3 and 4, in the present embodiment, specifically, the Y-direction moving mechanism 5 includes a Y-direction pushing cylinder 51, a pair of Y-direction slide rails 52, a Y-direction slide bar 53, a Y-direction slide table 54, at least a pair of Y-direction pulleys 55, and a Y-direction slide bar base 56; wherein, a pair of Y-direction slide rails 52 is fixedly arranged on the table top of the machine body 1 along the Y direction; each Y-direction block 55 is slidably disposed on the corresponding Y-direction slide rail 52; the Y-direction sliding table 54 is fixedly provided at the upper end of each Y-direction carriage 55, and the Y-direction sliding rod base 56 is fixedly provided at the bottom surface of the Y-direction sliding table 54; the measurement base 3 is arranged on the top surface of the Y-direction slide table 54; the Y-direction sliding rod 53 is fixedly arranged on the Y-direction sliding rod seat 56, and the Y-direction sliding rod 53 is connected with the Y-direction pushing cylinder 51; the Y-direction pushing cylinder 51 is disposed on the table top of the machine body 1 and adapted to push the Y-direction sliding rod 53 to reciprocate along the Y-direction, so that the Y-direction sliding rod 53 pushes the Y-direction sliding rod seat 56 to reciprocate, and the Y-direction sliding table 54 drives the measurement base 3 to reciprocate on the corresponding Y-direction sliding rail 52 via the Y-direction pulleys 55. Through the extension and contraction of the Y-direction pushing cylinder 51, the Y-direction pushing cylinder 51 pushes the Y-direction sliding rod 53 to move, the Y-direction sliding rod 53 pushes the Y-direction sliding table 54 to move through the Y-direction sliding rod seat 56, namely, the Y-direction sliding table 54 reciprocates on the Y-direction sliding rail 52 through the Y-direction pulley 55, so that the measurement base 3 is driven to reciprocate in the Y direction, the relative position of the measurement base 3 and the X-direction moving mechanism 7 is adjusted, automatic adjustment is realized, and the efficiency is improved.

As shown in fig. 4, in the present embodiment, it is preferable that Y-direction rail seats 57 are bridged on both ends of the pair of Y-direction rails 52; the Y-direction slide bar base 56 is located between the two Y-direction slide rail bases 57, and the Y-direction slide bar 53 is slidably inserted in the two Y-direction slide rail bases 57. The Y-direction sliding rail seat 57 is arranged at the end parts of the two Y-direction sliding rails 52, so that the moving position of the Y-direction sliding table 54 is limited, the Y-direction sliding table 54 is prevented from sliding out of the Y-direction sliding rails 52, and the running safety of the equipment is improved.

As shown in fig. 4, in the present embodiment, it is preferable that a Y-direction rail guard 58 is mounted on the pair of Y-direction slide rails 52; one end of the Y-direction rail guard 58 is connected to a Y-direction rail base 57 that is away from the Y-direction pushing cylinder 51, and the other end of the Y-direction rail guard 58 is connected to each Y-direction block 55. Through the effective partial Y direction slide rail 52 of covering of Y direction guide rail guard 58, realize protection and dustproof processing, the precision detection demand of adaptation equipment.

As shown in fig. 5, in the present embodiment, specifically, the X-direction moving mechanism 7 includes an X-direction pushing cylinder 71, a pair of X-direction slide rails 72, an X-direction slide bar 73, an X-direction slide table 74, at least a pair of X-direction blocks 75, and an X-direction slide rail base 76; wherein, the pair of X-direction slide rails 72 are fixedly arranged on the portal frame 2 along the X direction; each X-direction block 74 is slidably disposed on the corresponding X-direction slide rail 72; the X-direction sliding table 74 is fixedly disposed at the upper end of each X-direction carriage 75, and the X-direction sliding rod base 76 is fixedly disposed at the bottom surface of the X-direction sliding table 74; the Z-direction moving mechanism 6 is provided on the top surface of the X-direction slide table 74; the X-direction slide bar 73 is fixedly provided on an X-direction slide bar base (this member is not shown in fig. 5, and the structure is referred to the Y-direction slide bar base 56 in fig. 3), and the X-direction slide bar 73 is connected to the X-direction pushing cylinder 71; the X-direction pushing cylinder 71 is disposed on the gantry 2 and adapted to push the X-direction slide bar 73 to reciprocate along the X-direction, so that the X-direction slide bar 73 pushes the X-direction slide bar base to reciprocate, and the X-direction slide table 74 drives the Z-direction moving mechanism 6 to reciprocate on the corresponding X-direction slide rail 72 via each X-direction pulley 75. X-direction rail seats 76 are provided at both ends of the pair of X-direction rails 72; the X-direction slide bar base is located between the two X-direction slide rail bases 76, and the X-direction slide bar 73 is slidably disposed through the two X-direction slide rail bases 76. The X-direction sliding rail seat 76 is arranged at the end parts of the two X-direction sliding rails 72, so that the moving position of the X-direction sliding table 74 is limited, the X-direction sliding table 74 is prevented from sliding out of the X-direction sliding rails 72, and the running safety of the equipment is improved. An X-direction guide rail guard 77 is provided on the pair of X-direction slide rails 72; one end of the X-direction guide rail guard 77 is connected to the X-direction carriage 76 away from the X-direction pushing cylinder 71, and the other end of the X-direction guide rail guard 77 is connected to each X-direction carriage 75. Effectively cover part X direction slide rail 72 through X direction guide rail guard 77, realize protection and dustproof processing, adapt to the accurate detection demand of equipment. Through the extension and contraction of the X-direction pushing cylinder 71, the X-direction pushing cylinder 71 pushes the X-direction sliding rod 73 to move, the X-direction sliding rod 73 pushes the X-direction sliding table 74 to move through the X-direction sliding rod seat, namely, the X-direction sliding table 74 reciprocates on the X-direction sliding rail 52 through the X-direction pulley 75, so that the Z-direction moving mechanism 6 is driven to reciprocate in the Y direction, the relative position of the Z-direction moving mechanism 6 and the X-direction moving mechanism 7 is adjusted, automatic adjustment is realized, and the production efficiency is improved.

As shown in fig. 6, in the present embodiment, specifically, the Z-direction moving mechanism 6 includes a Z-direction pushing cylinder 61, a pair of Z-direction slide rails 62, a Z-direction slide table 63, at least a pair of Z-direction pulleys 64, and a probe mounting base 65; wherein, a pair of Z-direction slide rails 62 is fixedly arranged on the X-direction slide table 74 along the Z direction; each Z-direction block 64 is slidably disposed on a pair of Z-direction slide rails 62; the Z-direction sliding table 63 is fixedly arranged at the upper end of each Z-direction pulley 64; the measuring head mounting base 65 is fixedly arranged on the Z-direction sliding table 63 and is suitable for mounting the measuring head assembly 4; the Z-direction pushing cylinder 61 is fixedly arranged on the X-direction sliding table 74, and is adapted to push the Z-direction sliding table 63 to reciprocate on the Z-direction sliding rail 62 through the Z-direction pulley 64, so that the measuring head mounting base 65 drives the measuring head assembly 4 to contact or be away from the measuring base 3. Pass cylinder 61 through the Z direction and promote Z direction slip table 63 along Z direction reciprocating motion to make Z direction slip table 63 through Z direction coaster 64 reciprocating motion on Z direction slide rail 62, thereby realize that gauge head mounting base 65 drives gauge head subassembly 4 contact or keeps away from measurement base 3, conveniently measure the product height and size, improve measurement of efficiency.

As shown in fig. 6, in the present embodiment, it is preferable that a lock block 66 is provided on the Z-direction slide table 63, and the gauge head assembly 4 is inserted into the lock block 66. The measuring head assembly 4 comprises a row of connecting blocks and measuring heads which are connected to the corresponding connecting blocks in a matched mode, two ends of each connecting block are connected with the measuring head mounting base 65 and the locking block 66 respectively, and the measuring heads penetrate through the locking blocks 66 and face the measuring base 3. Through the design of locking piece 66 to increase the stability of fixing gauge head subassembly 4, improve the precision of measuring the product.

As shown in fig. 6, in the present embodiment, it is preferable that a marking mechanism 8 movable in the Z direction is provided on the X-direction moving mechanism 7, adapted to mark NG products. When NG products occur, the marking mechanism 8 is moved back and forth in the X direction through the X direction moving mechanism 7, and the relative position of the marking mechanism 8 and the measuring base 3 in the X direction is adjusted. The marking mechanism 8 can reciprocate in the Z direction through the Z-direction moving mechanism 6, and the relative position of the marking mechanism 8 and the measuring base 3 in the Z direction is adjusted; therefore, the marking mechanism 8 can move to the NG product to mark, so that the qualified product is prevented from being mixed, and the detection effect is improved.

As shown in fig. 6, in the present embodiment, specifically, the marking mechanism 8 includes a down-pressure cylinder 81, a push rod 82, a fixed block 83, a press block 84, and a marker 85; wherein, the upper end of the push rod 82 is connected with the lower pressure cylinder 81, and the lower end of the push rod 82 is connected with the fixed block 83; the marker pen 85 is mounted on the fixing block 83 through the pressing block 84 and is suitable for marking NG products; the downward-pressing cylinder 81 is fixedly arranged on the X-direction sliding table 74 and is suitable for pushing the push rod 82 to reciprocate along the Z direction, so that the fixed block 83 and the pressing block 84 drive the marking pen 85 to contact or be far away from the measuring base 3. The push rod 82 is pushed by the pressing cylinder 81 to move back and forth along the Z direction, so that the fixing block 83 and the pressing block 84 drive the marking pen 85 to contact with or be far away from the measuring base 3, and NG products can be marked conveniently.

As shown in fig. 6, in the present embodiment, preferably, the lower end of the push-down cylinder 81 is provided with a measuring head slide rod seat 86, and the piston rod of the push-down cylinder 81 passes through the measuring head slide rod seat 86 to be connected with the push rod 82; the two ends of the fixed block 83 are provided with measuring head slide bars 87, and the upper ends of the measuring head slide bars 87 are respectively arranged at the corresponding end parts of the measuring head slide bar seats 86 in a penetrating manner. The measuring head sliding rods 87 are respectively arranged on the two sides of the push rod 82, so that the marking pen 85 is more stable when being driven by the pressing cylinder 81 to move along the Z direction, the measuring effect is improved, and the precision measurement is ensured.

To sum up, the device for measuring the height and the size in batches at low cost drives the measuring base to reciprocate on the table top of the machine body along the Y direction through the Y-direction moving mechanism, and adjusts the position of the measuring base on the table top of the machine body so as to ensure that the measuring base is positioned under the X-direction moving mechanism; the X-direction moving mechanism drives the Z-direction moving mechanism to reciprocate on the portal frame along the X direction, and the Z-direction moving mechanism is adjusted to be positioned under the measuring head component; the measuring head component is driven by the Z-direction moving mechanism to move back and forth along the Z direction, so that the measuring head component is contacted with or away from the measuring base; realize general measurement through change measurement base and gauge head subassembly, can use less cost to realize quick, the mass measurement product, be applicable to the demand of present mass production. Through the flexible of Y direction push cylinder, Y direction push cylinder promotes Y direction slide bar and removes, and Y direction slide bar promotes Y direction slip table through Y direction slide bar seat and removes, and Y direction slip table reciprocates on Y direction slide rail through Y direction coaster promptly to the realization drives measurement base at Y direction reciprocating motion, adjusts the relative position of measurement base and X direction moving mechanism, realizes automatically regulated, raises the efficiency. Through the stretching of X direction thrust cylinder, X direction thrust cylinder promotes X direction slide bar and removes, and X direction slide bar promotes X direction slip table through X direction slide bar seat and removes, and X direction slip table reciprocates on X direction slide rail through X direction coaster promptly to the realization drives Z direction moving mechanism at Y direction reciprocating motion, adjusts the relative position of Z direction moving mechanism and X direction moving mechanism, realizes automatically regulated, improves production efficiency. Pass the cylinder through the Z direction and promote Z direction slip table along Z direction reciprocating motion to make Z direction slip table through Z direction slip table reciprocating motion on the Z direction slide rail, thereby realize that gauge head mounting base drives the contact of gauge head subassembly or keeps away from the measurement base, conveniently measure product height and size, improve measurement of efficiency. The marking mechanism is moved back and forth in the Z direction through the Z-direction moving mechanism, and the relative position of the marking mechanism and the measuring base in the Z direction is adjusted; therefore, the marking mechanism is moved to the NG product position for marking, the problem that the marking mechanism is mixed with qualified products is avoided, and the detection effect is improved.

The components selected for use in the present application (components not illustrated for specific structures) are all common standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experimentation.

In the description of the embodiments of the present invention, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", 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 device or component to which the reference is made must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. An apparatus for enabling low-cost mass measurement of height dimensions, comprising:

a body;

the portal frame is erected on the table top of the machine body;

the measuring base is arranged on the table top of the machine body and is suitable for placing a plurality of products to be measured in batches;

the measuring head assembly is arranged above the measuring base and is suitable for measuring the height size of the product to be measured in batches;

the Y-direction moving mechanism is arranged on a table top of the machine body at the position below the portal frame and is connected with the measuring base so as to drive the measuring base to reciprocate on the table top of the machine body along the Y direction;

the Z-direction moving mechanism is arranged above the measuring base and connected with the measuring head component so as to drive the measuring head component to move back and forth along the Z direction and realize that the measuring head component is contacted with or far away from the measuring base;

and the X-direction moving mechanism is arranged on the portal frame and is connected with the Z-direction moving mechanism so as to drive the Z-direction moving mechanism to reciprocate on the portal frame along the X direction.

2. The apparatus for measuring height dimensions in low-cost mass production according to claim 1,

the Y-direction moving mechanism comprises a Y-direction pushing cylinder, a pair of Y-direction sliding rails, a Y-direction sliding rod, a Y-direction sliding table, at least one pair of Y-direction pulleys and a Y-direction sliding rod seat; wherein

The pair of Y-direction sliding rails is fixedly arranged on the table top of the machine body along the Y direction;

each Y-direction pulley is arranged on a corresponding Y-direction slide rail in a sliding manner;

the Y-direction sliding tables are fixedly arranged at the upper ends of the Y-direction pulleys, and the Y-direction sliding rod seats are fixedly arranged on the bottom surfaces of the Y-direction sliding tables;

the measuring base is arranged on the top surface of the Y-direction sliding table;

the Y-direction sliding rod is fixedly arranged on the Y-direction sliding rod seat and is connected with the Y-direction pushing cylinder;

the Y-direction pushing cylinder is arranged on the table top of the machine body and is suitable for pushing the Y-direction sliding rod to reciprocate along the Y direction, so that the Y-direction sliding rod pushes the Y-direction sliding rod seat to reciprocate, and the Y-direction sliding table drives the measuring base to reciprocate on the corresponding Y-direction sliding rail through the Y-direction pulleys.

3. The apparatus for measuring height dimensions in low-cost mass production according to claim 2,

y-direction slide rail seats are erected at two ends of the pair of Y-direction slide rails;

the Y-direction sliding rod seat is positioned between the two Y-direction sliding rail seats, and the Y-direction sliding rod penetrates through the two Y-direction sliding rail seats in a sliding mode.

4. An apparatus for enabling low-cost mass measurement of height dimensions according to claim 3,

a Y-direction guide rail shield is erected on the pair of Y-direction slide rails;

one end of the Y-direction guide rail shield is connected with a Y-direction slide rail seat far away from the Y-direction pushing cylinder, and the other end of the Y-direction guide rail shield is connected with each Y-direction slide vehicle.

5. The apparatus for measuring height dimensions in low-cost mass production according to claim 1,

the X-direction moving mechanism comprises an X-direction pushing cylinder, a pair of X-direction sliding rails, an X-direction sliding rod, an X-direction sliding table, at least one pair of X-direction pulleys and an X-direction sliding rod seat; wherein

The pair of X-direction sliding rails are fixedly arranged on the portal frame along the X direction;

each X-direction pulley is arranged on a corresponding X-direction slide rail in a sliding manner;

the X-direction sliding tables are fixedly arranged at the upper ends of the X-direction pulleys, and the X-direction sliding rod seats are fixedly arranged on the bottom surfaces of the X-direction sliding tables;

the Z-direction moving mechanism is arranged on the top surface of the X-direction sliding table;

the X-direction sliding rod is fixedly arranged on the X-direction sliding rod seat and is connected with the X-direction pushing cylinder;

the X-direction pushing cylinder is arranged on the portal frame and is suitable for pushing the X-direction sliding rod to reciprocate along the X direction, so that the X-direction sliding rod pushes the X-direction sliding rod seat to reciprocate, and the X-direction sliding table drives the Z-direction moving mechanism to reciprocate on the corresponding X-direction sliding rail through the X-direction pulleys.

6. The apparatus for measuring height dimensions in low-cost mass production according to claim 5,

the Z-direction moving mechanism comprises a Z-direction pushing cylinder, a pair of Z-direction sliding rails, a Z-direction sliding table, at least one pair of Z-direction pulleys and a measuring head mounting base; wherein

The pair of Z-direction sliding rails are fixedly arranged on the X-direction sliding table along the Z direction;

each Z-direction pulley is arranged on a pair of Z-direction slide rails in a sliding manner;

the Z-direction sliding table is fixedly arranged at the upper end of each Z-direction pulley;

the measuring head mounting base is fixedly arranged on the Z-direction sliding table and is suitable for mounting a measuring head assembly;

the Z-direction pushing cylinder is fixedly arranged on the X-direction sliding table and is suitable for pushing the Z-direction sliding table to reciprocate on the Z-direction sliding rail through the Z-direction pulley, and the measuring head mounting base drives the measuring head assembly to contact or keep away from the measuring base.

7. The apparatus for measuring height dimensions in low-cost mass production according to claim 6,

and a locking block is arranged on the Z-direction sliding table, and the measuring head assembly is arranged on the locking block in a penetrating manner.

8. The apparatus for measuring height dimensions in low-cost mass production according to claim 6,

and the X-direction moving mechanism is provided with a marking mechanism capable of moving along the Z direction and is suitable for marking NG products.

9. The apparatus for enabling low-cost mass measurement of height dimensions according to claim 8,

the marking mechanism comprises a pressing cylinder, a push rod, a fixing block, a pressing block and a marking pen; wherein

The upper end of the push rod is connected with the lower pressing cylinder, and the lower end of the push rod is connected with the fixed block;

the marking pen is arranged on the fixed block through the pressing block and is suitable for marking NG products;

the push-down cylinder is fixedly arranged on the X-direction sliding table and is suitable for pushing the push rod to reciprocate along the Z direction, so that the fixed block and the pressing block can drive the marking pen to contact or be far away from the measuring base.

10. The apparatus for enabling low-cost mass measurement of height dimensions according to claim 9,

the lower end of the lower pressing cylinder is provided with a measuring head sliding rod seat, and a piston rod of the lower pressing cylinder penetrates through the measuring head sliding rod seat to be connected with the push rod;

and measuring head sliding rods are arranged at two ends of the fixing block, and the upper ends of the measuring head sliding rods are respectively arranged at the corresponding end parts of the measuring head sliding rod seats in a penetrating manner.

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